essay conclusion on science

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Kate Billingsley

introduction

Technology is the application of scientific knowledge for practical purposes, especially in industry. Technology is a tool that can be used to solve real-world problems. The field of Science, Technology, and Society (STS) “seeks to promote cross-disciplinary integration, civic engagement, and critical thinking” of concepts in the worlds of science and technology ( Harvard University, n.d.). As an aspect of everyday life, technology is continuously evolving to ensure that humanity can be productive, efficient, and follow the path of globalization . STS is a concept that encompasses countless fields of study. “Scientists, engineers, and medical professionals swim (as they must) in the details of their technical work: experiments, inventions, treatments and cures. “promotes cross-disciplinary integration, civic engagement, and critical thinking” It’s an intense and necessary focus” ( Stanford University , n.d.). On the opposite side of the spectrum is STS, which “draws attention to the water: the social, political, legal, economic, and cultural environment that shapes research and invention, supports or inhibits it — and is in turn shaped by evolving science and technology” ( Stanford University , n.d.). Technology is a crucial part of life that is constantly developing to fit the changing needs of society and aiding humanity in simplifying the demands of everyday life.

According to Oberdan (2010), science and technology share identical goals. “At first glance, they seem to provide a deep and thorough going division between the two but, as the discussion progresses, it will become clear that there are, indeed, areas of overlap, too” (Oberdan, 25). Philosophers believe that for a claim to be considered knowledge, it must first be justified, like a hypothesis, and true. Italian astronomer, physicist, and engineer, Galileo Galilei , was incredibly familiar with the obstacles involved with proving something to be a fact or a theory within the scientific world. Galileo was condemned by the Roman Catholic church for his beliefs that contradicted existing church doctrine (Coyne, 2013). Galileo’s discoveries, although denounced by the church were incredibly innovative and progressive for their time, and are still seen as the basis for modern astronomy today. Nearly 300 years later, Galileo was eventually forgiven by the church, and to this day he is seen as one of the most well known and influential astronomers of all time. Many new innovations and ideas often receive push back before becoming revolutionary and universal practices.

INNOVATION IN TECHNOLOGY

Flash forward to modern time where we can see that innovation is happening even more around us. Look no further than what could be considered the culmination of modern technological innovation: the mobile phone. Cell phone technology has developed exponentially since the invention of the first mobile phone in 1973 ( Seward , 2013). Although there was a period for roughly 20 years in which cell phones were seen as unnecessary and somewhat impractical, as society’s needs changed and developed in the late 1990s, there was a large spike in consumer purchases of mobile phones. Now, cell phones are an entity that can be seen virtually anywhere, which is in large part due to their practicality. Cell phones, specifically smartphones such as Apple’s iPhone , have changed the way society uses technology. Smartphone technology has eliminated the need for people to have a separate cell phone, MP3 player, GPS, mobile video gaming systems, and more. Consumers may fail to realize how many aspects of modern technological advancement are involved in the use of their mobile phones. Cell phones use wifi to browse the internet, use google, access social media, and more. Although these technologies are beneficial, they also allow consumers locations to be traced and phone conversations to be recorded. Modern cell phone technologies collect data on consumers, and many people are unsure how this information is being used. Additionally, mobile phones come equipped with virus protection which brings the field of cybersecurity into smartphone usage. The technological advances that have been made in the market for mobile phones have been targeted towards the changing needs of consumers and society. As proven by the rise in cell phones, with advancements in the field of STS comes new unforeseen obstacles and ethical dilemmas.

Technology is changing the way we live in this world. Innovations in the scientific world are becoming increasingly more advanced to help conserve earth’s resources and aid in the reduction of pollutants . Transportation is a field that has changed greatly in recent years due to modernization in science and technology, as well as an increased awareness of environmental concerns. The transportation industry continues to be a large producer of pollution

due to emissions from cars, trains, and other modes of transportation. As a result, cars have changed a great deal in recent years. A frontrunner in creating environmentally friendly luxury cars is Tesla, lead by CEO Elon Musk. Although nearly every brand of car has an electric option that either runs completely gas free, or uses significantly less fuel than standard cars, Tesla has taken this one step further and created a zero emissions vehicle. However, some believe that Tesla has taken their innovations in the transportation market a bit too far, specifically with their release of driverless cars.

“The recent reset of expectations on driverless cars is a leading indicator for other types of AI-enabled systems as well,” says David A. Mindell, professor of aeronautics and astronautics, and the Dibner Professor of the History of Engineering and Manufacturing at MIT. “These technologies hold great promise, but it takes time to understand the optimal combination of people and machines. And the timing of adoption is crucial for understanding the impact on workers” ( Dizikes , 2019).

As the earth becomes more and more polluted, consumers are seeking to find new ways to cut down on their negative impacts on the earth. Eco-friendly cars are a simple yet effective way in which consumers can cut back on their pollution within their everyday lives.

THE INTERSECTION OF SCIENCE AND TECHNOLOGY

The way in which energy is generated has changed greatly to benefit consumers and the environment. Energy production has followed a rather linear path over time, and is a prime example of how new innovations stem from old technologies. In the early 1800s, the steam engine acted as the main form of creating energy. It wasn’t until the mid-late 1800s that the combustion engine was invented. This invention was beneficial because it was more efficient than its predecessor, and became a form of energy that was streamlined to be used in countless applications. As time has progressed, this linear path of innovation has continued. As new energy creating technologies have emerged, machinery that was once seen as efficient and effective have been phased out. Today, largely due to the increased demand for clean energy sources, the linear path has split and consumers are faced with numerous options for clean, environmentally friendly energy sources. Over time, scientists and engineers have come to realize that these forms of energy pollute and damage the earth. Solar power, a modern form of clean energy, was once seen as an expensive and impractical way of turning the sun’s energy into usable energy. Now, it is common to see newly built homes with solar panels already built in. Since technology develops to fit the needs of society, scientists have worked to improve solar panels to make them cheaper and easier to access. A total of 173,000 terawatts (trillions of watts) of solar energy strikes the Earth continuously, which is more than 10,000 times of the world’s total energy use ( Chandler , 2011). This information may seem staggering, but is crucial in understanding the importance, as well as the large influence that modern forms of energy can have on society.

Technology has become a crucial part of our society. Without technological advancements, so much of our everyday lives would be drastically different. As technology develops, it strives to fulfill the changing needs of society. Technology progresses as society evolves. That being said, progress comes at a price. This price is different for each person, and varies based on how much people value technological and scientific advancements in their own lives. Thomas Parke Hughes’s Networks of Power “compared how electric power systems developed in America, England, and Germany, showing that they required not only electrical but social ‘engineering’ to create the necessary legal frameworks, financing, standards, political support, and organizational designs” ( Stanford University ). In other words, the scientific invention and production of a new technology does not ensure its success. Technology’s success is highly dependent on society’s acceptance or rejection of a product, as well as whether or not any path dependence is involved. Changing technologies benefit consumers in countless aspects of their lives including in the workforce, in communications, in the use of natural resources, and so much more. These innovations across numerous different markets aid society by making it easier to complete certain tasks. Innovation will never end; rather, it will continue to develop at increasing rates as science and technological fields becomes more and more cutting edge.

Chapter Questions

True or False: Improvements in science and technology always benefit society
Multiple Choice : Technology is: A. The application of scientific knowledge for practical purposes, especially in industry B. Tools and machines that may be used to solve real-world problems C. Something that does not change D. Both A and B
Short Answer: Discuss ways in which technological progression over time is related and how this relationship has led to the creation of new innovation.

Chandler, D. (2011). Shining brightly: Vast amounts of solar energy radiate to the Earth constantly, but tapping that energy cost-effectively remains a challenge. MIT News. http://news.mit.edu/2011/energy-scale-part3-1026

Coyne, SJ, G. V. (2013). Science meets biblical exegesis in the Galileo affair. Zygon® , 48 (1), 221-229. https://doi-org.libproxy.clemson.edu/10.1111/j.1467-9744.2012.01324.x

Dizikes, P., & MIT News Office. (2019). MIT report examines how to make technology work for society. http://news.mit.edu/2019/work-future-report-technology-jobs-society-0904

Florez, D., García-Duque, C. E., & Osorio, J. C. (2019). Is technology (still) applied science? Technology in Society. Technology in Society, 59. doi: 10.1016/j.techsoc.2019.101193

Groce, J. E., Farrelly, M. A., Jorgensen, B. S., & Cook, C. N. (2019). Using social‐network research to improve outcomes in natural resource management. Conservation biology , 33 (1), 53-65. https://conbio.onlinelibrary.wiley.com/doi/epdf/10.1111/cobi.13127

Harvard University. (n.d.) What is STS? . http://sts.hks.harvard.edu/about/whatissts.html .

Union of Concerned Scientists. (2018). How Do Battery Electric Cars Work? https://www.ucsusa.org/clean-vehicles/electric-vehicles/how-do-battery-electric-cars-work .

Oberdan, T. (2010). Science, Technology, and the Texture of Our Lives. Tavenner Publishing Company.

Seward, Z. M. (2013). The First Mobile Phone Call Was Made 40 Years Ago Today . The Atlantic. https://www.theatlantic.com/technology/archive/2013/04/the-first- mobile-phone-call-was-made-40-years-ago-today/274611/ .

Stanford University. (n.d.). What is the Study of STS? . https://sts.stanford.edu/about/what-study-sts .

Wei, R., & Lo, V.-H. (2006). Staying connected while on the move: Cell phone use and social connectedness. New Media & Society, 8 (1), 53–72. https://doi.org/10.1177/1461444806059870

Winston, B. (2006). Media Technology and Society: A History From the Telegraph to the Internet . London: Routledge.

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Building bridges between science and society for a better future. | Nadine Bongaerts | TEDxSaclay

“Tesla Model 3 Monaco” is licensed under CC BY-NC-SA 4.0

To the extent possible under law, Kate Billingsley has waived all copyright and related or neighboring rights to Science, Technology, & Society: A Student-Led Exploration , except where otherwise noted.

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How to Write a Conclusion for Research Papers (with Examples)

The conclusion of a research paper is a crucial section that plays a significant role in the overall impact and effectiveness of your research paper. However, this is also the section that typically receives less attention compared to the introduction and the body of the paper. The conclusion serves to provide a concise summary of the key findings, their significance, their implications, and a sense of closure to the study. Discussing how can the findings be applied in real-world scenarios or inform policy, practice, or decision-making is especially valuable to practitioners and policymakers. The research paper conclusion also provides researchers with clear insights and valuable information for their own work, which they can then build on and contribute to the advancement of knowledge in the field.

The research paper conclusion should explain the significance of your findings within the broader context of your field. It restates how your results contribute to the existing body of knowledge and whether they confirm or challenge existing theories or hypotheses. Also, by identifying unanswered questions or areas requiring further investigation, your awareness of the broader research landscape can be demonstrated.

Remember to tailor the research paper conclusion to the specific needs and interests of your intended audience, which may include researchers, practitioners, policymakers, or a combination of these.

What is a conclusion in a research paper, summarizing conclusion, editorial conclusion, externalizing conclusion, importance of a good research paper conclusion, how to write a conclusion for your research paper, research paper conclusion examples.

How to write a research paper conclusion with Paperpal?

Frequently Asked Questions

A conclusion in a research paper is the final section where you summarize and wrap up your research, presenting the key findings and insights derived from your study. The research paper conclusion is not the place to introduce new information or data that was not discussed in the main body of the paper. When working on how to conclude a research paper, remember to stick to summarizing and interpreting existing content. The research paper conclusion serves the following purposes: 1

Warn readers of the possible consequences of not attending to the problem.
Recommend specific course(s) of action.
Restate key ideas to drive home the ultimate point of your research paper.
Provide a “take-home” message that you want the readers to remember about your study.

Types of conclusions for research papers

In research papers, the conclusion provides closure to the reader. The type of research paper conclusion you choose depends on the nature of your study, your goals, and your target audience. I provide you with three common types of conclusions:

A summarizing conclusion is the most common type of conclusion in research papers. It involves summarizing the main points, reiterating the research question, and restating the significance of the findings. This common type of research paper conclusion is used across different disciplines.

An editorial conclusion is less common but can be used in research papers that are focused on proposing or advocating for a particular viewpoint or policy. It involves presenting a strong editorial or opinion based on the research findings and offering recommendations or calls to action.

An externalizing conclusion is a type of conclusion that extends the research beyond the scope of the paper by suggesting potential future research directions or discussing the broader implications of the findings. This type of conclusion is often used in more theoretical or exploratory research papers.

Align your conclusion’s tone with the rest of your research paper. Start Writing with Paperpal Now!

The conclusion in a research paper serves several important purposes:

Offers Implications and Recommendations : Your research paper conclusion is an excellent place to discuss the broader implications of your research and suggest potential areas for further study. It’s also an opportunity to offer practical recommendations based on your findings.
Provides Closure : A good research paper conclusion provides a sense of closure to your paper. It should leave the reader with a feeling that they have reached the end of a well-structured and thought-provoking research project.
Leaves a Lasting Impression : Writing a well-crafted research paper conclusion leaves a lasting impression on your readers. It’s your final opportunity to leave them with a new idea, a call to action, or a memorable quote.

Writing a strong conclusion for your research paper is essential to leave a lasting impression on your readers. Here’s a step-by-step process to help you create and know what to put in the conclusion of a research paper: 2

Research Statement : Begin your research paper conclusion by restating your research statement. This reminds the reader of the main point you’ve been trying to prove throughout your paper. Keep it concise and clear.
Key Points : Summarize the main arguments and key points you’ve made in your paper. Avoid introducing new information in the research paper conclusion. Instead, provide a concise overview of what you’ve discussed in the body of your paper.
Address the Research Questions : If your research paper is based on specific research questions or hypotheses, briefly address whether you’ve answered them or achieved your research goals. Discuss the significance of your findings in this context.
Significance : Highlight the importance of your research and its relevance in the broader context. Explain why your findings matter and how they contribute to the existing knowledge in your field.
Implications : Explore the practical or theoretical implications of your research. How might your findings impact future research, policy, or real-world applications? Consider the “so what?” question.
Future Research : Offer suggestions for future research in your area. What questions or aspects remain unanswered or warrant further investigation? This shows that your work opens the door for future exploration.
Closing Thought : Conclude your research paper conclusion with a thought-provoking or memorable statement. This can leave a lasting impression on your readers and wrap up your paper effectively. Avoid introducing new information or arguments here.
Proofread and Revise : Carefully proofread your conclusion for grammar, spelling, and clarity. Ensure that your ideas flow smoothly and that your conclusion is coherent and well-structured.

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Remember that a well-crafted research paper conclusion is a reflection of the strength of your research and your ability to communicate its significance effectively. It should leave a lasting impression on your readers and tie together all the threads of your paper. Now you know how to start the conclusion of a research paper and what elements to include to make it impactful, let’s look at a research paper conclusion sample.

How to write a research paper conclusion with Paperpal?

A research paper conclusion is not just a summary of your study, but a synthesis of the key findings that ties the research together and places it in a broader context. A research paper conclusion should be concise, typically around one paragraph in length. However, some complex topics may require a longer conclusion to ensure the reader is left with a clear understanding of the study’s significance. Paperpal, an AI writing assistant trusted by over 800,000 academics globally, can help you write a well-structured conclusion for your research paper.

Sign Up or Log In: Create a new Paperpal account or login with your details.
Navigate to Features : Once logged in, head over to the features’ side navigation pane. Click on Templates and you’ll find a suite of generative AI features to help you write better, faster.
Generate an outline: Under Templates, select ‘Outlines’. Choose ‘Research article’ as your document type.
Select your section: Since you’re focusing on the conclusion, select this section when prompted.
Choose your field of study: Identifying your field of study allows Paperpal to provide more targeted suggestions, ensuring the relevance of your conclusion to your specific area of research.
Provide a brief description of your study: Enter details about your research topic and findings. This information helps Paperpal generate a tailored outline that aligns with your paper’s content.
Generate the conclusion outline: After entering all necessary details, click on ‘generate’. Paperpal will then create a structured outline for your conclusion, to help you start writing and build upon the outline.
Write your conclusion: Use the generated outline to build your conclusion. The outline serves as a guide, ensuring you cover all critical aspects of a strong conclusion, from summarizing key findings to highlighting the research’s implications.
Refine and enhance: Paperpal’s ‘Make Academic’ feature can be particularly useful in the final stages. Select any paragraph of your conclusion and use this feature to elevate the academic tone, ensuring your writing is aligned to the academic journal standards.

By following these steps, Paperpal not only simplifies the process of writing a research paper conclusion but also ensures it is impactful, concise, and aligned with academic standards. Sign up with Paperpal today and write your research paper conclusion 2x faster .

The research paper conclusion is a crucial part of your paper as it provides the final opportunity to leave a strong impression on your readers. In the research paper conclusion, summarize the main points of your research paper by restating your research statement, highlighting the most important findings, addressing the research questions or objectives, explaining the broader context of the study, discussing the significance of your findings, providing recommendations if applicable, and emphasizing the takeaway message. The main purpose of the conclusion is to remind the reader of the main point or argument of your paper and to provide a clear and concise summary of the key findings and their implications. All these elements should feature on your list of what to put in the conclusion of a research paper to create a strong final statement for your work.

A strong conclusion is a critical component of a research paper, as it provides an opportunity to wrap up your arguments, reiterate your main points, and leave a lasting impression on your readers. Here are the key elements of a strong research paper conclusion: 1. Conciseness : A research paper conclusion should be concise and to the point. It should not introduce new information or ideas that were not discussed in the body of the paper. 2. Summarization : The research paper conclusion should be comprehensive enough to give the reader a clear understanding of the research’s main contributions. 3 . Relevance : Ensure that the information included in the research paper conclusion is directly relevant to the research paper’s main topic and objectives; avoid unnecessary details. 4 . Connection to the Introduction : A well-structured research paper conclusion often revisits the key points made in the introduction and shows how the research has addressed the initial questions or objectives. 5. Emphasis : Highlight the significance and implications of your research. Why is your study important? What are the broader implications or applications of your findings? 6 . Call to Action : Include a call to action or a recommendation for future research or action based on your findings.

The length of a research paper conclusion can vary depending on several factors, including the overall length of the paper, the complexity of the research, and the specific journal requirements. While there is no strict rule for the length of a conclusion, but it’s generally advisable to keep it relatively short. A typical research paper conclusion might be around 5-10% of the paper’s total length. For example, if your paper is 10 pages long, the conclusion might be roughly half a page to one page in length.

In general, you do not need to include citations in the research paper conclusion. Citations are typically reserved for the body of the paper to support your arguments and provide evidence for your claims. However, there may be some exceptions to this rule: 1. If you are drawing a direct quote or paraphrasing a specific source in your research paper conclusion, you should include a citation to give proper credit to the original author. 2. If your conclusion refers to or discusses specific research, data, or sources that are crucial to the overall argument, citations can be included to reinforce your conclusion’s validity.

The conclusion of a research paper serves several important purposes: 1. Summarize the Key Points 2. Reinforce the Main Argument 3. Provide Closure 4. Offer Insights or Implications 5. Engage the Reader. 6. Reflect on Limitations

Remember that the primary purpose of the research paper conclusion is to leave a lasting impression on the reader, reinforcing the key points and providing closure to your research. It’s often the last part of the paper that the reader will see, so it should be strong and well-crafted.

Makar, G., Foltz, C., Lendner, M., & Vaccaro, A. R. (2018). How to write effective discussion and conclusion sections. Clinical spine surgery, 31(8), 345-346.
Bunton, D. (2005). The structure of PhD conclusion chapters. Journal of English for academic purposes , 4 (3), 207-224.

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Essays About Science: Top 12 Examples and Prompts

Science can explain almost every aspect of our lives; if you want to write essays about science, start by reading our guide.

The word “science” comes from the Latin word Scientia or “knowledge,” It does indeed leave us with no shortage of knowledge as it advances to extraordinary levels. It is present in almost every aspect of our lives, allowing us to live the way we do today and helping us improve society.

In the 21st century, we see science everywhere. It has given us the technology we deem “essential” today, from our mobile phones to air conditioning units to lightbulbs and refrigerators. Yet, it has also allowed us to learn so much about the unknown, such as the endless vacuum of space and the ocean’s mysterious depths. It is, without a doubt, a vehicle for humanity to obtain knowledge and use this knowledge to flourish.

To start writing essays about science, look at some of our featured essay examples below.

1. The challenging environment for science in the 21st century by Nithaya Chetty

2. disadvantages of science by ella gray, 3. reflections from a nobel winner: scientists need time to make discoveries by donna strickland.

4. The fact of cloning by Cesar Hill

5. T. Rex Like You Haven’t Seen Him: With Feathers by Jason Farago

6. common, cheap ingredients can break down some ‘forever chemicals’ by jude coleman, 1. what is science, 2. a noteworthy scientist, 3. why is it important to study science, 4. are robots a net positive for society, 5. types of sciences, 6. science’s role in warfare.

“Open-ended, unfettered science in its purest form has, over the centuries, been pursued in the interests of understanding nature in a fundamental way, and long may that continue. Scientific ideas and discoveries have often been very successfully exploited for commercial gain and societal improvements, and much of the science system today the world over is designed to push scientists in the direction of more relevance.”

For South Africa to prosper, Chetty encourages cooperation and innovation among scientists. He discusses several problems the country faces, including the politicization of research, a weak economy, and misuse of scientific discoveries. These challenges, he believes, can be overcome if the nation works as one and with the international community and if the education system is improved.

“Technology can make people lazy. Many people are already dependent and embrace this technology. Like students playing computer games instead of going to school or study. Technology also brings us privacy issues. From cell phone signal interceptions to email hacking, people are now worried about their once private information becoming public knowledge and making profit out of video scandals.”

Gray discusses the adverse effects technology, a science product, has had on human life and society. These include pollution, the inability to communicate properly, and laziness.

She also acknowledges that technology has made life easier for almost everyone but believes that technology, as it is used now, is detrimental; more responsible use of technology is ideal.

“We must give scientists the opportunity through funding and time to pursue curiosity-based, long-term, basic-science research. Work that does not have direct ramifications for industry or our economy is also worthy. There’s no telling what can come from supporting a curious mind trying to discover something new.”

Strickland, a Nobel Prize winner, explains that a great scientific discovery can only come with ample time for scientists to research, using her work as an example. She describes her work on chirped pulse amplification and its possible applications, including removing brain tumors. Her Nobel-awarded work was done over a long time, and scientists must be afforded ample time and funding to make breakthroughs like hers.

4. The fact of cloning by Cesar Hill

“Any research into human cloning would eventually need to be tested on humans. Cloning might be used to create a “perfect human”. Cloning might have a detrimental effect family relationship. However the debate over cloning has more pros out weighting the cons, giving us a over site of the many advantages cloning has and the effects of it as well. Cloning has many ups and downs nevertheless there are many different ways in which it can be used to adapt and analyse new ways of medicine.”

Hill details both the pros and cons of cloning. It can be used for medical purposes and help us understand genetics more, perhaps even allowing us to prevent genetic diseases in children. However, it is expensive, and many oppose it on religious grounds. Regardless, Hill believes that the process has more advantages than disadvantages and is a net good.

“For the kids who will throng this new exhibition, and who will adore this show’s colorful animations and fossilized dino poop, T. rex may still appear to be a thrilling monster. But staring in the eyes of the feather-flecked annihilators here, adults may have a more uncanny feeling of identification with the beasts at the pinnacle of the food chain. You can be a killer of unprecedented savagery, but the climate always takes the coup de grâce.”

In his essay, Farago reviews an exhibition on the Tyrannosaurus Rex involving an important scientific discovery: it was a feathered dinosaur. He details the different displays in the exhibition, including models of other dinosaurs that helped scientists realize that the T-Rex had feathers.

“Understanding this mechanism is just one step in undoing forever chemicals, Dichtel’s team said. And more research is needed: There are other classes of PFAS that require their own solutions. This process wouldn’t work to tackle PFAS out in the environment, because it requires a concentrated amount of the chemicals. But it could one day be used in wastewater treatment plants, where the pollutants could be filtered out of the water, concentrated and then broken down.”

Coleman explains a discovery by which scientists were able to break down a perfluoroalkyl and polyfluoroalkyl substance, a “forever chemical” dangerous to the environment. He explains how they could break the chemical bond and turn the “forever chemical” into something harmless. This is important because pollution can be reduced significantly, particularly in the water.

Writing Prompts on Essays about Science

“Science” is quite a broad term and encompasses many concepts and definitions. Define science, explain what it involves and how we can use it, and give examples of how it is present in the world. If you want, you can also briefly discuss what science means to you personally.

Many individuals have made remarkable scientific discoveries, contributing to the wealth of knowledge we have acquired through science. For your essay, choose one scientist you feel has made a noteworthy contribution to their field. Then, give a brief background on the scientists and explain the discovery or invention that makes them essential.

Consider what it means to study science: how is it relevant now? What lessons can we learn from science? Then, examine the presence of science in today’s world and write about the importance of science in our day-to-day lives- be sure to give examples to support your points. Finally, in your essay, be sure to keep in mind the times we are living in today.

Essays about science: Are robots a net positive for society

When we think of science, robots are often one of the first things that come to mind. However, there is much to discuss regarding safety, especially artificial intelligence. Discuss the pros and cons of robots and AI, then conclude whether or not the benefits outweigh the disadvantages. Finally, provide adequate evidence to reinforce your argument and explain it in detail.

From biology to chemistry to physics, science has many branches, each dealing with different aspects of the world and universe. Choose one branch of science and then explain what it is, define basic concepts under this science, and give examples of how it is applied: Are any inventions requiring it? How about something we know today thanks to scientific discovery? Answer these questions in your own words for a compelling essay.

Undoubtedly, technology developed using science has had devastating effects, from nuclear weapons to self-flying fighter jets to deadly new guns and tanks. Examine scientific developments’ role in the war: Do they make it more brutal? Or do they reduce the casualties? Make sure to conduct ample research before writing your essay; this topic is debatable.

For help with your essays, check out our round-up of the best essay checkers .

If you’re looking for inspiration, check out our round-up of essay topics about nature .

Martin is an avid writer specializing in editing and proofreading. He also enjoys literary analysis and writing about food and travel.

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Science and Technology: Impact on Human Life Essay

Introduction, part i: science in personal and professional life, part ii: science and technology in a multicultural world.

Science plays an important role in everyday life, and people depend on technologies in a variety of ways by creating, using, and improving them regularly. Sometimes, a person hardly notes how inevitable the impact of science can be on personal or professional life. Evaluating such technologies as the Internet, smartphones, notebooks, smartwatches, and brain-medicine interfaces helps recognize their positive and negative outcomes compared to the period when traditional lifestyles and natural resources like ginger were highly appreciated.

Most people are confident in their independence and neglect multiple technologies that determine their lives. During the last 25 years, technology has dramatically changed human interactions (Muslin, 2020). In addition to domestic technological discoveries like washing machines and stoves, four technologies, namely, the Internet, smartphones, notebooks, and smartwatches, are used throughout the day. Despite their evident advantages in communication, data exchange, and connection, some negative impacts should not be ignored.

Regarding my personal life changes, these technologies provoke mental health changes such as depression. I prefer to avoid my dependence on all these technologies that imperceptibly shape everyday activities. However, I constantly check my vitals, messengers, and calls not to miss something important. On the one hand, this idea of control helps improve my life and makes it logical. On the other hand, I am concerned about such relationships with technologies in my life. Similar negative impacts on society emerge when people prefer to communicate virtually instead of paying attention to reality. Technologies compromise social relationships because individuals are eager to choose something easier that requires less movement or participation, neglecting their unique chances to live a real life. They also challenge even the environment because either smartwatches or notebooks need energy that is associated with air pollution, climate change, and other harmful emissions (Trefil & Hazen, 2016). Modern technologies facilitate human life, but health, social, and environmental outcomes remain dangerous.

Thinking about my day, I cannot imagine another scientific discovery that makes this life possible except the Internet. Today, more devices have become connected to the Internet, including cars, appliances, and personal computers (Thompson, 2016). With time, people get an opportunity to use the Internet for multiple purposes to store their personal information, business documentation, music, and other files that have a meaning in their lives. The Internet defines the quality of human relationships, starting with healthcare data about a child and ending with online photos after the person’s death.

Although the Internet was invented at the end of the 1980s, this technology was implemented for everyday use in the middle of the 1990s. All people admired such possibilities as a connection across the globe, increased job opportunities, regular information flows, a variety of choices, online purchases, and good education opportunities (Olenski, 2018). It was a true belief that the Internet made society free from real-life boundaries and limitations. However, with time, its negative sides were revealed, including decreased face-to-face engagement, laziness, and the promotion of inappropriate content (Olenski, 2018). When people prefer their virtual achievements and progress but forget about real obligations like parenting, education, or keeping a healthy lifestyle, the Internet is no longer a positive scientific discovery but a serious problem.

Many discussions are developed to identify the overall impact of the Internet as a major scientific discovery. Modern people cannot imagine a day without using the Internet for working, educational, or personal purposes. However, when online life becomes someone’s obsession, the negatives prevail over its positives. Therefore, the human factor and real-life preferences should always be recognized and promoted. During the pandemic, the Internet is a priceless contribution that helps deal with isolation and mental health challenges. Some people cannot reach each other because of family issues or business trips, and the Internet is the only reliable and permanent means of connection. Thus, such positives overweight the negatives overall if everything is used rationally.

The Internet makes it possible for healthcare providers to exchange their knowledge and experiences from different parts of the world. This possibility explains the spread of the westernized high-tech research approach to medical treatment and the promotion of science in a multicultural care world. Biomedical research changes the way how people are diagnosed and treated. Recent genomic discoveries help predict the possibility of cancer and human predisposition to other incurable diseases to improve awareness of health conditions. The benefit of new brain-interface technologies (BMI) is life improvement for disabled people to move their prosthetics easily (The American Society of Mechanical Engineers, 2016). Instead of staying passive, individuals use smart technology to hold subjects, open doors, and receive calls. BMI has a high price, but its impact is priceless. At the same time, some risks of high-tech research exist in medical treatment. The American Society of Mechanical Engineers (2016) underlines damaged neurons and fibers depend on what drugs are delivered to the system and how. The transmission of electrical signals is not always stable, and the safety of BMI processes is hardly guaranteed.

Some populations reject technologies in medical treatment and prefer to use natural resources to stabilize their health. For example, ginger is characterized by several positive clinical applications in China. Researchers believe that this type of alternative medicine effectively manages nausea, vomiting, and dizziness (Anh et al., 2020). Its major advantage is reported by pregnant patients who use ginger to predict morning sickness, unnecessary inflammation, and nausea. However, like any medication, ginger has its adverse effects, covering gastrointestinal and cardiovascular symptoms (Anh et al., 2020). The disadvantage of using traditional medicine is its unpredictable action time. When immediate help is required, herbs and other products are less effective than a specially created drug or injection.

There are many reasons for having multicultural approaches to medical treatment, including ethical recognition, respect, diversity, and improved understanding of health issues. It is not enough to diagnose a patient and choose a care plan. People want to feel support, and if one culture misses some perspectives, another culture improves the situation. Western and traditional cultural approaches may be improved by drawing upon the other. However, this combination diminishes the effects of traditions and the worth of technology in medical treatment. Instead of uniting options, it is better to enhance differences and underline the importance of each approach separately. The challenges of combining these approaches vary from differences in religious beliefs to financial problems. All these controversies between science and culture are necessary for medical treatment because they offer options for people and underline the uniqueness of populations and technological progress.

In general, science and traditions are two integral elements of human life. People strive to make their unique contributions to technology and invent the devices that facilitate human activities. At the same time, they never neglect respect for traditions and cultural diversity. Therefore, high-tech and traditional medicine approaches are commonly discussed and promoted today to identify more positive impacts and reduce negative associations and challenges.

The American Society of Mechanical Engineers. (2016). Top 5 advances in medical technology . ASME. Web.

Anh, N. H., Kim, S. J., Long, N. P., Min, J. E., Yoon, Y. C., Lee, E. G., Kim, M., Kim, T. J., Yang, Y. Y., Son, E. Y., Yoon, S. J., Diem, N. C., Kim, H. M., & Kwon, S. W. (2020). Ginger on human health: A comprehensive systematic review of 109 randomized controlled trials. Nutrients, 12 (1). Web.

Musil, S. (2020). 25 technologies that have changed the world . Cnet. Web.

Olenski, S. (2018). The benefits and challenges of being an online – Only brand. Forbes . Web.

Thompson, C. (2016). 21 technology tipping points we will reach by 2030 . Insider. Web.

Trefil, J., & Hazen, R. M. (2016). The sciences: An integrated approach (8th ed.). Wiley.

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Education Issues: School Notebooks or Notebook Laptops
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How to successfully write a scientific essay.

Posted by Cody Rhodes

If you are undertaking a course which relates to science, you are more or less apt to write an essay on science. You need to know how to write a science essay irrespective of whether your professor gives you a topic or you come up with one. Additionally, you need to have an end objective in mind. Writing a science essay necessitates that you produce an article which has all the details and facts about the subject matter and it ought to be to the point. Also, you need to know and understand that science essays are more or less different from other types of essays. They require you to be analytical and precise when answering questions. Hence, this can be quite challenging and tiresome. However, that should not deter you from learning how to write your paper. You can always inquire for pre-written research papers for sale from writing services like EssayZoo.

Also, you can read other people’s articles and find out how they produce and develop unique and high-quality papers. Moreover, this will help you understand how to approach your essays in different ways. Nonetheless, if you want to learn how to write a scientific paper in a successful manner, consider the following tips.

How to successfully write a scientific essay

Select a topic for your article Like any other type of essay, you need to have a topic before you start the actual writing process. Your professor or instructor may give you a science essay topic to write about or ask you to come up with yours. When selecting a topic for your paper, ensure that you choose one you can write about. Do not pick a complex topic which can make the writing process boring and infuriating for you. Instead, choose one that you are familiar with. Select a topic you will not struggle gathering information about. Also, you need to have an interest in it. If you are unable to come up with a good topic, trying reading other people’s articles. This will help you develop a topic with ease.

Draft a plan After selecting a topic, the next step is drafting a plan or an outline. An outline is fundamental in writing a scientific essay as it is the foundation on which your paper is built. Additionally, it acts as a road map for your article. Hence, you need to incorporate all the thoughts and ideas you will include in your essay in the outline. You need to know what you will include in the introduction, the body, and the conclusion. Drafting a plan helps you save a lot of time when writing your paper. Also, it helps you to keep track of the primary objective of your article.

Start writing the article After drafting a plan, you can begin the writing process. Writing your paper will be smooth and easier as you have an outline which helps simplify the writing process. When writing your article, begin with a strong hook for your introduction. Dictate the direction your paper will take. Provide some background information and state the issue you will discuss as well as the solutions you have come up with. Arrange the body of your article according to the essay structure you will use to guide you. Also, ensure that you use transitory sentences to show the relationship between the paragraphs of your article. Conclude your essay by summarizing all the key points. Also, highlight the practical potential of our findings and their impacts.

Proofread and check for errors in the paper Before submitting or forwarding your article, it is fundamental that you proofread and correct all the errors that you come across. Delivering a paper that is full of mistakes can affect your overall performance in a negative manner. Thus, it is essential you revise your paper and check for errors. Correct all of them. Ask a friend to proofread your paper. He or she may spot some of the mistakes you did not come across.

In conclusion, writing a scientific essay differs from writing other types of papers. A scientific essay requires you to produce an article which has all the information and facts about the subject matter and it ought to be to the point. Nonetheless, the scientific essay formats similar to the format of any other essay: introduction, body, and conclusion. You need to use your outline to guide you through the writing process. To learn how to write a scientific essay in a successful manner, consider the tips above.

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Best Science Essay Examples to Learn From

Published on: May 3, 2023

Last updated on: Jan 31, 2024

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Are you struggling to write a science essay that stands out?

Are you tired of feeling overwhelmed by scientific jargon and complicated concepts?

You're not alone.

Science essays can be a challenge for even the most dedicated students. It's no wonder that so many students struggle to produce top-notch papers.

But fear not!

In this blog post, we'll provide you with some science essay examples and tips. We will help you write a top-notch paper that impresses your professor and earns you a high grade.

So buckle up and get ready to tackle science essays like a pro!

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Science Essay Examples for Students

Writing a science essay can be a daunting task for students. However, with the right guidance and examples, it can also be a rewarding and enlightening experience.

Here, we'll provide you with examples so you can elevate your own writing.

Science Essay Example SPM

Scientific Essay Example Pdf (Insert

Science Paper Example

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Science Essay Examples for Different Subjects

Science is a vast field that encompasses many different subjects, from biology to physics to chemistry. As a student, you may find yourself tasked with writing a science essay on a subject that you're not particularly familiar with.

We have provided you with science essay examples for different subjects to help you get started.

Social Science Essay Example

Political Science Essay Example

Environmental Science Essay Example

Health Science Essay Example

Computer Science Essay Example

University Science Essay Examples

Science essays are important part of university-level education. However, different universities may have different requirements and expectations when it comes to writing these essays.

That's why we've compiled some science essay examples for different universities. You can see what works and what doesn't, and tailor your own writing accordingly.

Scientific Essay Example University

Mcmaster Health Science Essay Example

Cornell Arts And Science Essay Example

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Structure of a Science Essay

Science essays are a crucial part of many subjects, and learning to structure them effectively is essential for achieving academic success.

Letâs explore scientific essay structure.

Introduction

The introduction of a science essay should introduce the topic and provide some context for the reader.

You should explain the purpose of the essay and provide a thesis statement that outlines the main argument you will make in the essay. A good introduction should also capture the reader's interest and motivate them to read on.

Check out these how to start a science essay examples for better understanding:

Body Paragraphs

The body paragraphs of a science essay should provide evidence to support the thesis statement. You should use scientific evidence, research, and data to support your argument.

Each paragraph should focus on one key point, and the points should be organized logically to create a coherent argument. It is essential to provide citations for all sources you use in your essay.

Here is an example for you:

The conclusion of a science essay should summarize the main points of the essay and restate the thesis statement in a compelling manner.

You should also provide some final thoughts or recommendations based on the evidence presented in the essay.

The conclusion should be concise and leave a lasting impression on the reader.

Natural Science Essay Topics

There are countless interesting, thought-provoking and problem solving essay topics in science.

Explore some compelling natural science essay topics to inspire your writing.

Science Essay Topics for 5th Graders

The importance of recycling for our environment
The different types of clouds and how they form
How animals hibernate during the winter months
The different types of rocks and how they are formed
The role of bees in pollination and food production
How light travels and how we see objects
The properties of magnets and how they work
The different stages of stem cell research
The human digestive system and how it works
The effects of pollution on our environment and health

Science Essay Topics for 6th Graders

The impact of climate change on the planet
The different types of energy and how they are produced
The importance of water conservation and management
The role of artificial intelligence in human life
The structure and function of the human respiratory system
The properties and uses of acids and bases
The effect of light on plant growth and development
The differences between renewable and non-renewable energy sources
The process of photosynthesis and its importance for life on Earth
The impact of technology on the environment and society

Science Essay Topics for 7th Graders

The structure and function of the human circulatory system
The different types of fossils and how they are formed
The impact of natural disasters on the environment and human life
The pros and cons of bacteria in our bodies and in the environment
The physics of sound and how it travels
The effects of air pollution in United States
The properties and uses of different types of waves (sound, light, etc.)
The process of cell division and its role in growth and repair
The structure and function of the human nervous system
The different types of ecosystems and their unique characteristics

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Tips for Writing a Science Essay

Writing a science essay can be challenging, especially if you don't have much experience in writing academic papers.

However, with the right approach and strategies, you can produce a high-quality science essays.

Here are some tips to help you write a successful science essay:

Understand the assignment requirements: Before you start writing your essay, make sure you understand the assignment requirements. Read the prompt carefully and make note of any specific guidelines or formatting requirements.

Choose a topic that interests you: Writing about a topic that you find interesting and engaging can make the process enjoyable and rewarding. Consider topics that you have studied in class or that you have a personal interest in.

Conduct thorough research: To write a successful science essay, you need to have a deep understanding of the topic you are writing about. Conduct thorough research using reliable sources such as academic journals, textbooks, and reputable websites.

Develop a clear and concise thesis statement: Your thesis statement should clearly state your argument or position on the topic you are writing about. It should be concise and specific, and should be supported by evidence throughout your essay.

Use evidence to support your claims: When writing a science essay, it's important to use evidence to support your claims and arguments. This can include scientific data, research findings, and expert opinions.

Edit and proofread your essay: Before submitting your essay, make sure to edit and proofread it carefully. Check for spelling and grammatical errors. Ensure that your essay is formatted correctly according to the assignment requirements.

In conclusion, this blog has provided a comprehensive guide to writing a successful science essay.

By following the tips, students can produce high-quality essays that showcase their understanding of science.

If you're struggling to write a science essay or need additional assistance, CollegeEssay.org is one of the best online essay services to help you out,

Our expert writers have extensive experience in writing science essays for students of all levels.

So why wait? Contact our science essay writing service today!

Frequently Asked Questions

What are some common mistakes to avoid when writing a science essay.

Some common mistakes to avoid include:

Plagiarizing content
Using incorrect or unreliable sources
Failing to clearly state your thesis
Using overly complex language

How can I make my science essay stand out?

To make your science essay stand out, consider choosing a unique or controversial topic. Using relevant and up-to-date sources, and present your information in a clear and concise manner. You can also consider using visuals such as graphs or charts to enhance your essay.

What should I do if I'm struggling to come up with a topic for my science essay?

If you're struggling to come up with a topic for your science essay, consider discussing potential topics with your instructor or classmates. You can also conduct research online or in academic journals to find inspiration.

How important is research when writing a science essay?

Research is an essential component of writing a science essay. Your essay should be grounded in accurate and reliable scientific information. That is why it's important to conduct thorough research using reputable sources.

Can I use personal anecdotes or experiences in my science essay?

While personal anecdotes or experiences can be engaging, they may not always be relevant to a science essay. It's important to focus on presenting factual information and scientific evidence to support your argument or position.

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Science Essay

Essay About Science In Everyday Life

Essay About Science in Everyday Life - Samples & Writing Tips

Essays About Science In Everyday Life

The following essays provide a snapshot of the different ways science can be explored in everyday life.

Each essay offers its own unique perspective on the role of science in the world around us.

Read through these essays and get a feel for the range of possibilities that are available when exploring science in your everyday life.

So read on!

Essays About Science In Everyday Life For Students

Essay Science in Our Daily Life

Science in Everyday Life Essay PDF

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Science in Everyday Life Essay 300 Words

Science In Everyday Life Essay For Class 9

Science in Everyday Life Essay for Class 10

Essays on the Importance and Impact of Science

Importance of Science in Our Daily Life

Application of Science in Our Daily Life

Blessings of Science Essay Sample

Want to read essays on scientific topics? Check out thes e science essay examples t o put your curiosity to rest.

After you've read these sample essays, try writing your own essay on a similar topic!

Continue reading to check out some tips that will help you write your essay!

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Tips for Writing An Essay About Science

You have read the sample essays and seen how they establish their point. The next step is to write an essay of your own.

Here are some tips that will help you write a great essay about science in everyday life:

Brainstorm Ideas for a Topic

The first step in writing an essay is to choose a specific topic. Here are some questions that’ll help you brainstorm a topic. Or you can use them as prompts that you can consider for your essay:

What are some examples of science in everyday life?
What are some applications of science in daily life?
Science plays an important role in modern life.
Science is the greatest blessing for the modern man.
How has science affected human life?
How has modern science changed the way we live?
How has science made life easier?
What is the importance of science in your daily life?

In your essay, you can examine scientific discoveries that are essential for modern living.

Topics may include telecommunications, medical breakthroughs, and other areas that impact people's lives. Check out this list of science essay topics if you need more ideas.

Here’s a video containing a list of examples of how science is involved in our daily lives. Check it out to get some ideas:

So, find an interesting topic for your essay before moving on.

Make an Essay Outline

Once you know what you will write about, start by making an essay outline . Making an essay outline is an important step for any writer. It organizes your thoughts and serves as a key reference point during the writing and editing process.

To create an effective essay outline, you should…

Start by thinking of a thesis statement . A thesis statement is the central idea or main point of your essay.
Secondly, think of the main ideas or points you want to discuss. Once these are established, add supporting details, evidence, and examples for each point.
Finally, make sure all your points have a logical flow.

An effectively planned essay outline will result in a high-quality essay! So take your time when making an outline.

Define Your Argument Clearly

When writing an essay about science in everyday life, it is important to establish the main point or argument of your essay very early on.

Your thesis statement should be expressed clearly and concisely in the introduction of your essay.

This will set the tone for the rest of your paper and help readers understand what your essay is about.

The main points of your body paragraphs should support your main thesis. Make sure that these points are presented logically and are connected to each other.

In short, be clear and coherent throughout your essay.

Illustrate With Examples

When writing your essay, look for examples from everyday life to illustrate your main points.

Using specific examples will also help readers understand the importance of your argument in a practical context.

Luckily, we live in an age of science. You will find ample inspiration for your essay around you. There are countless scientific inventions and tools you use every day, such as motor cars.

Additionally, personal anecdotes can be especially effective in making your argument more engaging and convincing. You should also include scientific research or statistics to strengthen your argument further.

Edit Your Essay Carefully

Finally, take time to review and edit your essay. Check for grammar, punctuation, and other common errors .

Also, make sure that your argument is logical and consistent with the evidence you provide.

Going through your essay one last time will ensure that you are satisfied with the finished product. You may also get help from an experienced essay writer to edit your essay.

To conclude,

By reading these examples and following these tips, you can easily write an essay about science in everyday life. So get started and write your best essay today!

Do you still require further help in writing your essay?

No problem!

At MyPerfectWords.com , we provide expert science essay writing service . We will craft an essay that is unique to your topic and tailored to your specific needs.

So, if you're struggling to write an effective science essay, contact our essay writer service .

Our science essay writer will help you create an outstanding essay in no time. We guarantee you'll be satisfied with the results. You can also utilize the assistance of our essay bot if you’re looking for quick essay generation.

Write Essay Within 60 Seconds!

Betty is a freelance writer and researcher. She has a Masters in literature and enjoys providing writing services to her clients. Betty is an avid reader and loves learning new things. She has provided writing services to clients from all academic levels and related academic fields.

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Winning Essays

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Congratulations to the winner of the 2019 Yale Scientific Synapse High School Essay Contest!

This year’s essay prompt was:

There is a moment that defines success, that “ah-ha” moment when the barrier of your expectations of what is possible to achieve is shattered. Yet, for every Nobel Prize success story or every innovation that is deemed media frenzy worthy, there are hundreds of breakthroughs that go unnoticed by the general public. Choose an important but under-discussed breakthrough from the past 5 years, and describe why it is so significant.

Entangled in a Quantum Future

1st Place Winner, Yale Scientific Magazine National Essay Competition 2019 Kelvin Kim Bergen Catholic High School, Oradell, NJ

The rate of discovery in science has accelerated dramatically since the 20th century. This should not be surprising since our knowledge base doubles approximately every 13 months. Some scientists even predict that the “internet of things” will lead to even more dramatic accelerations. Many of these advancements have gained widespread recognition while others are relatively unknown to the general public.

For example, Chinese researchers at Shanghai’s University of Science and Technology made advances on data teleportation based on quantum entanglement but remained underrecognized. In 2017, this team, led by Ji-Gang Ren, shattered previous distance records for such teleportation experiments. The previous record, set in 2015, achieved successful transmissions using 104 kilometers of superconducting molybdenum silicide fiber. Firing a high-altitude laser from Tibet to the orbiting Micius satellite, the Chinese team achieved successful transmissions over distances up to 1400 kilometers. Later, they successfully transmitted quantum data from the satellite back to Earth at distances ranging from 1600 to 2400 kilometers. In doing so, they demonstrated the viability of someday being able to create a “quantum internet,” over which information could be exchanged far more securely than is possible today.

The phrase quantum teleportation is somewhat misleading. In the Chinese experiments, no particles were physically teleported from Earth to space like most people might imagine after watching sci-fi programs like Star Trek . “Quantum teleportation” involves information, not matter. To grasp this, we need to understand the basic nature of quantum entanglement.

Quantum entanglement is a way of describing two particles with matching quantum states. The states in question, of which there are four possibilities, have to do with vertical or horizontal polarization. The entangled particles are linked in such a way as to mutually influence one another. Moreover, when one particle is observed, information about the other can be known. These effects hold true even if the entangled particles are separated by great distances.

Dr. Chien-Shiung Wu first experimentally demonstrated quantum entanglement in a laboratory, showing an Einstein-type correlation between two photons that were well separated from one another. Back then, all she could do was show correlations between entangled photons separated by a small distance. The experiment conducted by Dr. Ren’s team in 2017 is fundamentally the same as the experiment that was conducted by Dr. Wu almost seventy years ago. However, the Chinese researchers’ achievement is significant because they strove to do what Dr. Wu did at a far greater scale. Instead of performing the experiment in a laboratory, the Chinese physicists demonstrated entanglement between a photon on Earth and a photon on an orbiting satellite. These particles were separated by distances of at least 500 kilometers—the greatest distances that quantum entanglement have ever been recorded. This accomplishment was all the more impressive as it was achieved using detectors on a satellite that was traveling around Earth at orbital speeds.

Quantum entanglement means that data can seemingly be “teleported” since the information about one of the particles in an entangled pair will always reflect information relevant to the other particle. This is the main concept behind the potential applications being investigated by scientists. While nothing may be physically teleported, the fact that information about an object can be accessed instantaneously from anywhere has significant implications for the future.

One potential application of this concept is the quantum internet. The researchers showed that working with entangled particles while they are separated and moving at fast speeds is possible. This could provide a means of ensuring data security. Since the mere act of observing a particle changes its quantum properties, recipients of information over a quantum network could instantly know, by comparing the state of the paired particle at the point of transmission to that of its partner at the point of reception, not only if a message had been decrypted, but even if it had been merely observed. To this end, the Chinese scientists—in collaboration with European partners at the University of Vienna and the Austrian Academy of Sciences—aim to establish a secure quantum-encrypted channel by next year, and a global network in the following decade.

It is not surprising that the first practical applications of quantum entanglement are expected to appear in the realm of cyber-security. The regular internet is vulnerable to hacking because data still flows through cables in the form of bits, into which the hacker can tap and decrypt. A bit can either represent a zero or a one, but not both at the same time. The quantum internet, on the other hand, doesn’t have this problem because it utilizes qubits, a quantum state a particle is in when it represents both zero and one simultaneously. If a hacker tried to access a stream of qubits, the qubits would seem to have values that are either zero or one, but not both. This means that by trying to access information in the stream of qubits, the hacker would just end up destroying the data he is trying to hack.

Beyond this, the term “quantum internet” doesn’t actually have a clear definition. “Quantum internet is still a vague term,” explains physicist Thomas Jennewein of the University of Waterloo.

In summary, the research being conducted by Dr. Ren, his colleagues, and their European partners on data teleportation via quantum entanglement is significant because it represents the scaling-up of this technology to the point where its practical application is imminent. Before 2017, no previous experiments in this field had been done over comparable distances with such reliable results. The fact that global partners are planning to establish secure quantum channels based on these experiments in the near future ensures not only that such networks will soon be a global reality, but also that scientists will be delving ever deeper into the mystery of quantum entanglement. This research places humanity on the threshold of a new world of quantum applications that we can scarcely imagine today.

Congratulations to the winners of the 2018 Yale Scientific Synapse High School Essay Contest!

A Plantastic Solution to an Aqueous Problem

By John Lin

Water covers about 71 percent of Earth’s surface, but throughout the world, this natural resource appears to be drying up.1 Due to global warming, desertification is rapidly spreading across the world. The world is finding that critical freshwater reserves are disappearing in the face of increasing population growth.2 Just as more water is needed, less water is available. However, cacti have dealt with this problem for millennia and have adapted to arid climates. We can learn from these prickly plants to solve one of the world’s most pressing problems.

Our current stopgap measures are failing. Most modern water storage methods use jerry cans, lidded buckets, and clay pots but require backbreaking labor that is predominantly done by females.3 UNICEF estimates that across the world, women and girls spend 200 million hours collecting water each day, forcing them to abandon their education and employment and enter a cycle of poverty and dependence.4 Additionally, this water is often dirty, resulting in major waterborne disease outbreaks that devastate developing nations, Finally, these buckets require a tradeoff between water supplies, temperature, and sanitation. For example, clay pots lose water to evaporation but are cooler.5 On the other hand, buckets create a warm environment ripe for bacteria growth.

Instead of using costly chemical reactions to synthesize hydrogen and oxygen, scientists can find a cheap solution in biomimicry. Succulent plants are uniquely adapted to absorb and retain water from their arid surroundings. Learning from them will help us efficiently deal with desertification and minimize water conflicts. Cacti are among the most effective succulents, surviving in habitats from the Atacama Desert to the Patagonian steppe.6 Semiarid and arid areas experience varying levels of rainfall, demanding different tissue thicknesses and structural designs. We should study cacti to produce location-specific containers that can absorb and store safe water at optimal temperatures.

Scientists should explore water retrieval methods including cacti’s water absorption. Cacti build shallow roots that can branch out, allowing them to react quickly to rainfall.7 We can utilize capillary action, much like plant roots, to gather water at a cheap energy cost. Researchers at the Chinese Academy of the Sciences are studying artificial root systems that could store rainwater.8 Some cacti also store fog water, thanks to spines that collect water molecules. Scientists from Beihang University are already developing similar structures by electrospinning polyimide and polystyrene.9 Moreover, this could help improve filtration systems. Dr. Norma Alcantar from the University of South Florida found that prickly pear cactus gum effectively removes sediment and bacteria from water.1 0 We could eliminate common diseases, free women to pursue studies, leisure, or careers, and save millions of lives.

Researchers can also improve water storage by focusing on cacti because of their high water retention. Because of their fleshy tissue, many cacti can hold large amounts of water. In fact, Charles Gritzner, Distinguished Professor Emeritus of Geography at South Dakota State University, notes that some can store up to 2 tons of water, or 1,800 liters.1 1 We can learn from their thick structures to maximize the quantity of water stored. Cacti also have unique structural designs including protective hair to deflect sunlight, which defends against dangerous heat levels.1 2 Cacti have additionally developed waxy skin to prevent water loss.1 3 We can combine this with biodegradable material to promote environmental sustainability by avoiding plastic. These innovations fix the current temperature-water loss tradeoff and maximize utility.

This large, bulky bucket would be incredibly adaptable. In foggier areas like the Atacama Desert, artificial spines would help collect water, while mechanical roots would work better in drier places. The layer of gum-like lining on the inner walls of the pail would improve sanitation. The water would be protected from heat through intricate designs of folds and hair. The outer waxy coating would help preserve water while maintaining cooler temperatures. Humanitarian organizations could distribute this in developing nations, ensuring that each family has a stable, safe source of water.

The consequences of ignoring water shortages are dire because water is the most precious resource of life. Not only is approximately 60 percent of the adult human body made of water, each American uses around 80-100 gallons of water every day.1 4,15 This has promoted hygiene and eliminated disease outbreaks, with handwashing alone reducing diarrheal disease-related deaths by almost 50%.1 6 With antibiotic-resistant bacteria developing rapidly, hygiene is critical for public health. Water is also heavily used in food production, irrigating 62.4 million acres of American cropland in 2010.1 7 Agriculture accounts for 70% of freshwater withdrawals each year.1 8 As global warming intensifies regional climates, more water is needed. Otherwise, the world would be torn apart by hunger and thirst.

Losing water will also have major geopolitical implications. The World Economic Forum has ranked water crises among the five most impactful global issues for the past four years.1 9 As countries compete for an ever-shrinking supply of water, wars are bound to break out. The Global Policy Forum predicts that more than 50 countries across five continents will likely be forced into water conflicts.2 0 Already, nuclear armed states such as India and Pakistan engage in water fights.2 1 The resulting wars could claim billions of innocent human lives.

Although more advanced technology is being developed, biomimicry provides a cheap, clean, and quick answer to the billions of people surviving on inadequate and unsafe water. Unless we take action, water wars, food shortages, and disease outbreaks will tear the world apart. For the sake of humanity’s survival, we must turn to cacti to guide our water foraging efforts in the developing world.

Congratulations to the winners of the 2017 Yale Scientific Synapse High School Essay Contest!

If Science were to make a huge breakthrough in the next year, what do you think would be the most beneficial one to society? Why?

Breaking Through Ocean Acidification

1st Place Winner, Yale Scientific Magazine National Essay Competition 2017 Clara Benadon Poolesville High School, MD

As a Marylander, one of my favorite things to do is make the trek up to the Chesapeake Bay. Its sparkling waters and abundant wildlife set it apart as a prime jewel of the East Coast. Nothing can compare to the experience of paddling down the Potomac River on a sunny day, the boughs of a sycamore arching overhead.

Apart from being a stunner, the Bay provides major cultural and economic benefits. Its unique way of life is perfectly encapsulated in the small towns of Smith Island, where watermen make a living from the estuary’s riches. On a recent visit, one local said to me, “We truly build our lives around the water.” From the local fisherman to larger commercial operations, the Chesapeake provides $3.39 billion annually in seafood sales alone, part of a total economic value topping $1 trillion. The stability of these waters is endangered by the growing problem of ocean acidification. This occurs when the carbon dioxide in the atmosphere is absorbed into bodies of water, causing surging acidity levels. Acidification leads to the protective carbonate coverings of shellfish to disintegrate, killing off large amounts of oysters, mussels, and scallops. Oyster reefs filter the Bay; without a thriving population, harmful pollutants run rampant. The low oxygen conditions caused by high acidity also make it hard for fish to breathe. Even with survivable oxygen levels, low pH can be fatal for fish.

The plummeting numbers of these Chesapeake staples make a dent on the economy. According to the Chesapeake Bay Foundation, Maryland and Virginia have suffered losses exceeding $4 billion over the last three decades stemming from the decline of oyster health and distribution. High acidity causes oysters’ growth to be stunted, so that shellfish fisheries cannot profit from the smaller, thinner shells.

The losses aren’t economic alone. An estimated 2,700 species call the Bay their home, a remarkable level of biodiversity that is threatened by ocean acidification. The loss of even one species causes a ripple effect through the entire food web, sending it into a state of unbalance. According to a 2004 study in Science, the survival of threatened and nonthreatened species is closely intertwined: when an endangered species goes extinct, dependent ones suffer. Moreover, biodiversity keeps in check the amount of carbon dioxide in any body of water. Zoom out from the Chesapeake to the world ocean. Skyrocketing acidity is present in almost every aquatic biome on our planet. When pH is low, coral reefs cannot absorb the calcium carbonate that makes up their skeleton. Corals, along with snails, clams, and urchins, disintegrate en masse. A particularly disturbing image of ocean acidification is its effect on the neurology of fish. Their decision making skills are significantly delayed to the level where they sometimes swim directly into the jaws of predators.

Economically, the UN estimates that ocean acidification will take a $1 trillion bite out of the world economy by the year 2100. This massive cost has direct human implications, including health, job security, and cultural heritage. In addition, the economies of many countries are wholly dependent upon reef based tourism and other activities built around the water.

We need a solution to our world’s rapidly acidifying oceans. If science were to make a major breakthrough, solving this problem would be beneficial to our economy and ecology on an unprecedented scale. Methods that at first appeared brilliant have either been limited by their feasibility or come to be outweighed by their negative side effects, ultimately prolonging the search for a solution.

The unorthodox method of dumping enormous amounts of iron sulphate into the water is based on the principle that iron fertilizes phytoplankton, microscopic organisms found in every body of water. The energy phytoplankton gain from the iron allows them to bloom, absorbing CO 2 from the atmosphere and the ocean. When the phytoplankton die they sink to the bottom of the ocean, locking the CO 2 there for centuries. In 1988, the late oceanographer John Martin proclaimed, “Give me a half tanker of iron, and I will give you an ice age.” It is theorized that fertilizing 2% of the Southern Ocean could set back global warming by 10 years.

Why not implement this magic fix? First off, iron fertilization has come under fire for its negative side effects. A 2016 study in Nature determined that the planktonic blooms would deplete the waters of necessary nutrients. Additionally, when the large bloom dies, it would create large “dead zones,” areas devoid of oxygen and life. Side effects aside, this technique may be entirely ineffective. Carbon dioxide may simply move up the food chain when the phytoplankton are eaten and be respired back into the water. This was observed when the 2009 Lohafex expedition unloaded six tons of iron off the Southern Atlantic. The desired phytoplankton bloom it caused was promptly gobbled up by miniscule organisms known as copepods.

The alternative solution of planting kelp is less drastic. Revitalizing expansive forests of algae has proven to be effective in sucking up underwater CO 2 . Kelp grows as quickly as 18 inches a day, and once established offers the added benefits of providing a habitat for marine species and removing anthropogenic nutrient pollution. Researchers from the Puget Sound Restoration Fund, who have been monitoring the capability of this process, have found that kelp forests are effective at diminishing acidification on a local scale. While planting carbonsucking species across the ocean would not be a feasible global solution, kelp forests could help solve the acidification crises found in less expansive areas.

To date, there is not one straightforward fix to combat ocean acidification and its corrosive effects. If a scientific breakthrough were to occur, it would perhaps be comprised of a combination of methods. However, as science and technology continuously evolve, the key to deacidifying our oceans may well turn out to be something beyond our wildest dreams.

A Revolutionary Combatant to Global Warming

2nd Place Winner, Yale Scientific Magazine National Essay Competition 2017 Arjun Marwaha Fairmont Schools, Anaheim CA

Accelerated industrialization and incredible innovation by the human species has completely morphed our 4.54 billion year-old planetary home in just a few centuries. Through feats of agriculture and language, humans have profoundly suggested superiority over all domains that dwell on Earth. Just recently, the culmination of human capability appears evident; through scientific means such as CRISPR’s gene splicing technique and Elon Musk’s inconceivable vision to send people around the moon, humanity is on the verge of a new creation: a feasible “dominance” over our galaxy.

Nonetheless, several ramifications have scarred our Earth ever since humans have undertook these robust, industrial actions. As first priority, scientists should direct their focus onto preserving our planet from the cataclysmic effects of the greenhouse effect — the trapped carbon dioxide gas in Earth’s atmosphere which thereby generates additional heat into our planet. This can be achieved by developing a renewable energy-based device to chemically convert carbon dioxide into clean products, which in turn will inherently benefit our environment and most definitely the society with the future generation of useful, renewable products.

One prominent solar example of this was physically engineered at the University of Illinois in Chicago, by mechanical engineer Amin Salehi-Khojin, in July of 2016. In their prototyping phase, the research team was able to construct a device that can absorb carbon dioxide, utilize sunlight to break CO2 into “syngas” (gas similar to hydrogen and carbon monoxide), and then use this synthesized gas directly as diesel or be turned into other liquid fuels. Just from this experiment alone, it is discernible that the potential to create such a device to eliminate the excess carbon dioxide exists within the scientific community; thus one can expect multiple breakthroughs in this field in the coming year alone, from solar to maybe even wind based technology. Furthermore, this prototype exemplifies the truly infinite possibilities that renewable energy sources can harness by converting the harmful gas into beneficial compounds.

Indisputably, this methodology has positive consequences, with little to no risk, hence producing an overall positive for both the Earth’s maintenance, and all animals and humans in regards to air quality. However, one may argue that this “breakthrough” has existed for epochs: plants, as they convert the carbon dioxide from the air into valuable sugars through the cyclical, self-sufficient process known as photosynthesis. But due to recent industrialization leading to deforestation, plants in general are becoming more and more rare in an industrial-based city. So without having the plants absorb the toxins and carbon dioxide in the air, the breeding ground for extreme pollution in cities, like New Delhi, India, exists. This eventually triggers an urgent necessity for renewable methods to get rid of these pollutants and toxins; and if plants cease to exist in harsh climates where toxins exist, then this innovative technique of splitting the carbon dioxide into useful products surely will have the ability to stay in industrial cities like these; and if they have capability to withstand the worst toxins, they surely will have the staying power in the international market.

In addition to its efficiency, the mere utilization of such a technology will sincerely resonate with the scientific community. Since numerous attempts have been made by scientists to find sustainable solutions to the greenhouse effect, the community — and more so the public — are desperate for a panacea. This solution not only thrives off the absorption of carbon dioxide, but it also creates several efficient products including but not limited to gaseous compounds that can provide liquid fuel or diesel, thereby acting as a detriment to further carbon emissions. Now, the world has seen this technology exist in one small laboratory. Through extensive research on maximizing the utility of the materials, the next massive breakthrough will be attempting to scale this technology to the international market, while ensuring that this device can be inexpensive as possible so that the scientific community can make some slot of profit. For this effective cost and efficient design, this device can essentially gain international acclaim after scientists give their approval to showcase a brand of these carbon emission combatants, all of which exist in different shape or form but run on renewable, green energy.

Without a cast of a doubt, the renewably-energized devices will completely revolutionize our approach to global warming. By developing a method that can concurrently reduce the carbon dioxide emissions and generating “split” products that promote green energy, the scientific community would absolutely gain the same recognition of this breakthrough as, for instance, circulating two men around the moon. This ideology, in effect, prompts people to question who they really are. Scientists are curious and explorative. But can they halt this mindset and instead focus on a more impeding dynamic: introspection of our character. Thus, it is only ethically sound that we as humans understand one blatant reality: our curiosity has, in essence, disrupted the nature of our Earth. So, it is only morally correct that we humans disband from our brigades in space, leave the hospital’s dissections and illnesses, and truly save our only home known to man.

Congratulations to the winners of the third Yale Scientific Synapse High School Essay Contest!

This year’s essay prompt was: “How does bias affect the course of scientific research? Discuss how public and personal bias has hindered and facilitated scientific progress.”

The Duality of Bias

By rocel beatriz balmes 1st place winner, yale scientific magazine national essay competition 2014 haines city high school lake alfred, florida.

Traditionally defined as a partiality towards particular people, objects, or beliefs, bias has developed a rather negative connotation—particularly in science—of resulting in unfair advantages and, thus, inaccurate results. Though this has, in effect, rendered it equivalent to a social pariah to the scientific community, throughout the years, it has persisted as a definitive barrier to scientific and social progress.

Take, for example, the emergence of “Social Darwinism” in the late 1800s. Despite the fact that Darwin focused only on biological evidence in animals and seldom mentioned ramifications for humans, public bias took the words of famed eugenicist Francis Galton and perpetuated the idea of a biologically superior race. Observing and dissecting the differences between their own fair features and the large lips and dark skin of their slaves, Americans came to the conclusion that they were the de facto superior race in all aspects of humanity, despite the lack of scientific empiricism. Instead of obtaining impartial evidence for their superiority—of which, they would actually find none—they focused their efforts on finding justification for their enslavement and systematic dehumanization of African Americans for centuries to come. Though this pseudoscience was nothing but a gross perversion of Darwin’s widely supported Theory of Evolution and Natural Selection, the concept of a harsher eugenics outlined by Vacher de Lapouge based on this very theory and the idea of white supremacy became the underpinnings of Nazi Germany’s eugenics agenda. This form of scientific racism, verified only by the bias of a racist, ethnocentric society led to the creation of global selective breeding programs that eliminated—and, in fact, continue to eliminate—millions of innocent people leaving only masses of unrealized potential for scientific and social progress.

Unfortunately, such bias is not unique to eras of the past. From the very dawn of its conception in the mid-to-late 1900s, stem cell research has been influenced by bias. Though the utilization of the cells as transformative tissues has been revolutionary, this was only possible with the extraction of the inner cell mass in a human embryo. Such procedures, when first introduced, shocked the public as a process strikingly similar to the very destruction of human life, regardless of the undeveloped status of said human. Researchers were swayed by some of the strongest proponents of the ban of such procedures. Rather than specific religious denominations or political parties, the conflict attracted masses of people from differing backgrounds to forge a formidable opposition to the progression of health science. Consequently, some research institutions succumbed to the period’s public and private moral bias and halted experimentation. That is not to say, of course, that this bias was in any way intended with malice or aimed to deprive severely ill people of life-saving stem cells. Bias—public bias in particular—is oftentimes muddled with the fear of the unorthodox and the unconventional. In this case, though the bias did prevent scientific progression, it is important to note that it was influenced by a people that was, perhaps, not quite ready for such progression.

Alternatively, bias can provide the push that some societies need in order to develop and revolutionize. Just as most words in the English language, the word bias is double-faceted by nature. Far from the unscrupulous reputation it usually holds in science, it can also be defined as a predilection or a fondness for something—an emotion that all scientists must have in order to undertake the challenges of their satisfying yet simultaneously grating careers. Thus, through the years, bias has had the dual role of barrier and catalyst to major scientific breakthroughs.

Take, for example, the conflict with stem cell research. Stem-cell pioneer James Thomson was a researcher in one of only two laboratories in 1998 to successfully extract stem cells and, at the same time, destroy the human embryo from which they were plucked. In a New York Times Article titled “Man Who Helped Start Stem Cell War May End It”, Thomson says that he knew of the social stigma that surrounded his research and that he himself was, at first, very skeptical of the moral implications and had even worked with ethicists before he unknowingly detonated a moral bomb with his ground-breaking scientific research. When public opinion proved to be a seemingly significant barrier biased against his progress, however, instead of backing down and raising the metaphorical white flag of surrender, Thomson’s determination was only fueled by this bias against him. Working with researchers from Kyoto University, Thomson helped developed a new technique of adding a few genes to ordinary skin cells to make them function like stem cells. The scientific ramifications of this ethically sound method are infinite. Aside from the obvious benefits in research, the medical world is now bombarded with revolutionary new methods and treatments as vital tissue generation without the need to wait for donors becomes a possibility. Though the road ahead may still be paved with challenges in production for Thomson, without the public and his own personal bias of morality pressuring him, his systematic search for and discovery of an ethical method would not have become a reality.

Though one might be tempted to label the above example as the exemption to the rule of bias’ role in science, it is important to note that some of the greatest innovations and fundamental truths of our world were conceived under researchers’ personal bias of belief in their ideas. From Galileo Galilei and Louis Pasteur, to Marie Curie and Jane Goodall, these scientists lived during eras during which they were ridiculed by a public inexorably biased against them for daring to have an alternative model of the world and, in the latter individuals’ cases, a gender unorthodox for a scientist. Yet, personal conviction, determination and, yes, bias led these three scientists to international acclaim. Indeed, bias possesses a dual dynamism that allows it to stand as an obstruction to and creator of scientific progress. Suspended between these two polarities is where revolution, innovation, and true science emerge.

Everything is Awesome

By marina tinone 2nd place winner, yale scientific magazine national essay competition 2014 william h. hall high school west hartford, connecticut.

My brother and I were blessed to have our own Lego collections. Our rooms were lined with shelves and shelves of our own creations, some of them built using the instructions from the Lego sets, most of them made by ourselves. We ditched the boring booklets in the box and just made what we needed.

For my brother, his bricks were used to build complex helicopters and submarines, usually creating machines significantly more complicated than the ones designed by Lego. When I asked him about his submarine, and why all the pieces he used weren’t the same color, he told me that the submarine was supposed to be invisible, so the colors didn’t need to match. Besides, the hinges, the pulleys, the contraptions he made by himself– those were the important parts.

In my world, my Lego creations weren’t invisible. My stuffed animals needed sleds to play in the snow, houses to sleep in, school buses to go to school in the morning and come back in the evening. My machines were not as complex as my brother’s, but they worked, and my colors matched. The stuffed animals needed their yellow school buses, and I thought a sled would look nice in blue.

My brother’s Legos always impressed our parents. He definitely had the eyes of an engineer, a scientist. Now, when Mom and Dad looked into my room and watched their daughter raise a blue sled loaded with stuffed rabbits into the air, well… the kids were different, that’s for sure.

Watching my brother receive praise for his creations from our chemist and engineer parents, I thought that science was restricted to those interests. Science was for the ones who made Legos for the sake of the machine, not for the ones whose stuffed rabbits wore scarves.

I wonder– did the world think the same way I did when Rosalind Picard introduced affective computing in 1997? Upon learning more about the limbic system and its role in shaping perception, Picard realized that it was not enough to simply create new microprocessors and develop energy-efficient chips if they didn’t interact with the user’s emotions and social cues. Technology needed a more human touch to develop. When she created this novel field and opened it to the world, did her peers find such emotion-based studies unworthy? Did they believe that such “science” was an aberration to the disciplines that touted rational, sentiment-free thinking?

As Picard explained to Adam Higginbotham of Wired magazine, “I realized we’re not going to build intelligent machines until we build, if not something we call emotion, then something that functions like our emotion systems.”

Today, there is an international conference and a journal dedicated to affective computing, and labs around the world continue to further the field by finding applications for their “intelligent machines” to shape how we interact with technology every day.

What about those who supported computer science in the 1970s, back when computer science looked like a pile of hole-punched papers? Computer scientists once had to suade others of the viability of a field that would later become one of the most relevant and lucrative areas of study.

What about Gregor Mendel’s investigation with pea plants in 1866? Mendel’s contemporaries criticizing his work surely did not know that he would be credited for fathering the ever-evolving field of genetics.

What about Edward Jenner’s smallpox vaccine in 1798? No one believed that the ungodly idea of infecting someone to treat someone would save millions of lives.

Did those biased against the potential, the validity of these new fields and scientific pursuits, really understand their purposes and merits? With their closed interpretations of science, did they really understand what science is and can be? Over time, scientists have attempted to define science. Astronomer Carl Sagan asserted that “Science is a way of thinking much more than it is a body of knowledge.” Physicist Stephen Hawking describes science as “not only a disciple of reason but, also, one of romance and passion.”

Although both eloquently stated their thoughts, I am convinced by the words of chemist Marie Curie –

“I am among those who think that science has great beauty. A scientist in his laboratory is not only a technician; he is also a child placed before natural phenomena which impress him like a fairy tale. We should not allow it to be believed that all scientific progress can be reduced to mechanism, machines, gearings, even though such machinery also has its own beauty.”

I remember comparing my blue sled to my brother’s invisible submarine, and I hold onto my creation a little tighter. Maybe there is something more to science than my brother’s sophisticated machines. When my younger self stood in her room, surrounded by her Lego bricks, she shouldn’t have diminished the progress she had made in her Lego laboratory, just because she didn’t use pulleys or interlocking gears.

I shouldn’t have been so close-minded against my own science, just because the world around me was biased against my ideas. From my studies, I hypothesized, I tested, I built upon my past results. My world needed science, but it didn’t need what had already been done, or was already deemed acceptable. It needed my own input. Call my ideas biased, call them faulted. But without the individuals interpreting and solving their world’s struggles using their own definitions, science would cease to develop.

Scientists continue to stand in their laboratories in child-like wonder, enraptured by the phenomena that enchant them, in all shapes and forms. Science is about discovering what you find beautiful in your world, and working, playing, in order to fulfill your personal curiosity and the needs of your imagination.

Let’s sit down. Let’s open up those boxes filled with possibilities. Throw away the instructions.

Let’s play.

The Good and Bad of Bias and Prejudice in Science

By jonathan chan 3rd place winner, yale scientific magazine national essay competition 2014 milton academy milton, massachusetts.

Scientists take pride in using the scientific method that dictates testing a hypothesis dispassionately with objective experiments, scrutinizing that the results are replicable, presenting all the data for independent peer review, and addressing any dissenting views vigorously. Over the years, scientists have been very successful in creating the public myth that they love second guessing their own hypotheses to safeguard themselves from unintentional bias and prejudice. This rigorous process has enabled science to become exalted as an arbiter of truth by most people. In reality, however, scientists behave very differently and bias in scientific research is in fact quite common; a steadily growing number of published papers have been found to be not replicable, calling into question the validity of many widely accepted hypotheses.

Scientists are humans, with personal beliefs and values. It is human nature to look for evidence to support one’s beliefs. A fundamental flaw of human nature is its love for being proven right and hate for being proven wrong. This flaw causes scientists to unconsciously find data to confirm their preferred hypotheses or preconceptions, and they overlook – even disregard – evidence that is contrary. This phenomenon is known to psychologists as “confirmation bias”. A study of the efficacy of Chinese acupuncture is an interesting example of how cultural beliefs of scientists affect their research. Clinical experiments on acupuncture performed in Asia overwhelmingly support its therapeutic effectiveness, while trials implemented in the West show inconclusive results.

“Confirmation bias” can influence every step of any scientific experiment set up to test a hypothesis, from how the experiment is designed, to how the results are measured, to how the data are interpreted. Scientific research today is highly competitive and involves significant financial resources; a culture of publish or perish is pervasive. There is constant pressure on scientists to generate groundbreaking discoveries in drugs, materials, and technologies. The experimental methods are highly complex, and as a result, “positive results” are extremely difficult to produce, measure, and assess. No wonder many researchers become overly excited over the first piece of positive data, giving it biased prominence over the mundane, negative results and subsequently “shoe- horning” the flawed data that eventuate a faulty conclusion.

In theory, peer review by independent professionals and publications should provide an effective defense against these subtle biases. In practice, however, this process is just as prone to the same kind of confirmation biases which favors positive results over null data and negative hypotheses. A recent study on the selection process of scientific publications concludes that papers are less likely to be published and to be cited if they report “negative” results. A prominent example of this institutional bias involves a high-profile study which linked child MMR vaccination with increased incidences of autism. This study caused widespread panic and resulted in a detrimental decade-long decrease in child immunization. Although numerous studies were conducted at the same time supporting a contrary conclusion, these “negative-result” papers failed to gain the level of attention of the “positive-result” paper the retraction of which took ten years.

History is replete with incidences where biases and prejudices have not only steered scientific research, but also fostered malicious prejudice of the research on an unsuspecting public. The prejudicial practice of eugenics in the early 1900’s caused thousands of innocent people to be labeled as inferior and unjustly persecuted for no scientific reason. Lysenkoism in the 1930’s in the Soviet Union advocated bias and useless “scientific” methods to increase crop yields for political purpose, resulting in the deaths of millions of starving peasants. On the other hand, bias has not always hindered scientific progress. Scientists in the past could not have known whether their brilliant ideas were right or wrong. Many of the problems they were trying to solve were not only difficult but also inductive due to a lack of evidence. These ideas necessarily originated as wild guesses encompassing the scientists’ individual biases and prevailing societal values.

Astrophysicist Mario Livio in his book “Brilliant Blunders” provides a litany of bias- induced scientific blunders which in time transformed into breakthrough scientific discoveries. Linus Pauling was a protein specialist and was likely to be biased in favor of proteins, which fueled his erroneous prediction of the DNA structure. Charles Darwin came out with the flawed theory of inheritance because he was likely influenced by the biases of the plant and animal breeders prevalent during his career. Lord Kelvin’s inordinate devotion to tidy mathematics and his bias against messiness resulted in his inaccurate calculation of earth’s age.

However, as these unconscious personal biases and societal prejudices are “uncovered” and properly understood, this development can actually facilitate the pursuit of true scientific knowledge. Bias and prejudice in science have caused unfortunate setbacks but at the same time have generated clarity for decisive shifts in thinking and accelerated advances. The scientific process is complex, messy, and at times even boring, full of starts and stops. Yet, this system of inquiry encompasses a self-correcting tendency which has withstood the test of time and remains a stunning success in understanding nature and improving lives. As influential German philosopher Hans-Gerog Gadamer writes: a researcher “cannot separate in advance the productive prejudices that enable understanding from the prejudices that hinder it”. Preconceptions can spur as well as blind in scientific research.

Unfortunately, scientific research today may have become overly zealous in guarding itself against biases and prejudices, succumbing to politically correct social forces and avoiding tackling sensitive problems and issues which may offend the prevailing public morality. Scientific research is increasingly constrained by these forces dictating what topics can be studied, how we study them, why we need to study them, and who gets to do the studying. A bigger crisis looms should science lose its relevance and importance due to excessive fear of unavoidable bias and prejudice in scientific research. As the Wright brothers said: “If a man is in too big a hurry to give up an error he is liable to give up some truth with it.”[/vc_column_text][vc_button2 title=”Go back” style=”square” color=”sky” size=”sm” link=”url:http%3A%2F%2Fwww.yalescientific.org%2Fsynapse%2Fcontest-winners%2F|title:Contest%20Winners|”][/vc_column][/vc_row]

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So much is at stake in writing a conclusion. This is, after all, your last chance to persuade your readers to your point of view, to impress yourself upon them as a writer and thinker. And the impression you create in your conclusion will shape the impression that stays with your readers after they've finished the essay.

The end of an essay should therefore convey a sense of completeness and closure as well as a sense of the lingering possibilities of the topic, its larger meaning, its implications: the final paragraph should close the discussion without closing it off.

To establish a sense of closure, you might do one or more of the following:

Conclude by linking the last paragraph to the first, perhaps by reiterating a word or phrase you used at the beginning.
Conclude with a sentence composed mainly of one-syllable words. Simple language can help create an effect of understated drama.
Conclude with a sentence that's compound or parallel in structure; such sentences can establish a sense of balance or order that may feel just right at the end of a complex discussion.

To close the discussion without closing it off, you might do one or more of the following:

Conclude with a quotation from or reference to a primary or secondary source, one that amplifies your main point or puts it in a different perspective. A quotation from, say, the novel or poem you're writing about can add texture and specificity to your discussion; a critic or scholar can help confirm or complicate your final point. For example, you might conclude an essay on the idea of home in James Joyce's short story collection, Dubliners , with information about Joyce's own complex feelings towards Dublin, his home. Or you might end with a biographer's statement about Joyce's attitude toward Dublin, which could illuminate his characters' responses to the city. Just be cautious, especially about using secondary material: make sure that you get the last word.
Conclude by setting your discussion into a different, perhaps larger, context. For example, you might end an essay on nineteenth-century muckraking journalism by linking it to a current news magazine program like 60 Minutes .
Conclude by redefining one of the key terms of your argument. For example, an essay on Marx's treatment of the conflict between wage labor and capital might begin with Marx's claim that the "capitalist economy is . . . a gigantic enterprise of dehumanization "; the essay might end by suggesting that Marxist analysis is itself dehumanizing because it construes everything in economic -- rather than moral or ethical-- terms.
Conclude by considering the implications of your argument (or analysis or discussion). What does your argument imply, or involve, or suggest? For example, an essay on the novel Ambiguous Adventure , by the Senegalese writer Cheikh Hamidou Kane, might open with the idea that the protagonist's development suggests Kane's belief in the need to integrate Western materialism and Sufi spirituality in modern Senegal. The conclusion might make the new but related point that the novel on the whole suggests that such an integration is (or isn't) possible.

Finally, some advice on how not to end an essay:

Don't simply summarize your essay. A brief summary of your argument may be useful, especially if your essay is long--more than ten pages or so. But shorter essays tend not to require a restatement of your main ideas.
Avoid phrases like "in conclusion," "to conclude," "in summary," and "to sum up." These phrases can be useful--even welcome--in oral presentations. But readers can see, by the tell-tale compression of the pages, when an essay is about to end. You'll irritate your audience if you belabor the obvious.
Resist the urge to apologize. If you've immersed yourself in your subject, you now know a good deal more about it than you can possibly include in a five- or ten- or 20-page essay. As a result, by the time you've finished writing, you may be having some doubts about what you've produced. (And if you haven't immersed yourself in your subject, you may be feeling even more doubtful about your essay as you approach the conclusion.) Repress those doubts. Don't undercut your authority by saying things like, "this is just one approach to the subject; there may be other, better approaches. . ."

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Evolutionary Innovations: The Business of Biotechnology

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10 Conclusions for Science and Technology

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Published: March 2000
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This chapter draws some conclusions about science and technology based on the theoretical and empirical discussions in previous chapters. Both scientific and technological activities involve searching for new knowledge and techniques, but it has been proposed that scientific activities are generally about understanding the world whereas technological activities are generally about controlling nature for human purposes. The focus of this chapter is on agents, environments, and knowledge-seeking activities from the 1970s to 1980s and first addresses how and why agents engage in scientific and technological activities in response to the four environments by analysing the historical material about genetic engineering for human growth hormone and insulin. The contribution of this book lies in uniting empirical and theoretical domains of enquiry in order to address questions about science-based, also known as high-tech, innovation processes. The book presents original empirical material about genetic engineering and biotechnology and analysis of how technological innovation processes occur.

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Essay on Scientific Discoveries

Updated on
Feb 7, 2024

Writing and speaking skills are the most important skills in the world. It shows how well a student will convey his or her ideas, experiences and thoughts. Essays are one of the most popular forms of writing to ascertain an applicant’s general knowledge, experiences, writing style and language skills. It is used in many entrance exams like SAT, IELTS, TOEFL and in college applications as well. From a very early age, school curriculums have been encouraging students to write essays and give speeches. Sometimes the topics provided to students can be complicated. So, today we have come up to help the students with an essay on Scientific Discoveries.

Check out our 200+ Essay Topics for School Students in English

Five Qualities of A Good Essay

Before we provide you with an essay on scientific discoveries. Let’s learn about essay writing. Writing an essay is a difficult thing. The writing should be rich in content plus should not bore its readers. Here are the five qualities a perfect essay should have:-

Focus: All of your writing should come under one single topic. No matter how vast your essay is, it should always revolve around the topic of the essay. Avoid unnecessary details.
Development: Every paragraph of your essay should centre the topic of your essay. Try to use examples, details and descriptions.
Free composition: Always follow a basic structure. Before finalising your essay, jot down the points you would like to mention and then make a series. Do not surprise the reader with complicated words, try to keep it as simple as possible.
Correctness: Make sure your essay is free from any grammatical errors, spelling mistakes, mismatched sentences, etc. Always use standard English and complete sentences.
Introduction and Conclusion: The introduction and the conclusion of the writing are the most important parts of the essay. The first impression is always the last, and so is the introduction of your writing. After reading the first two or three lines, if the reader gets bored, he may not read your whole essay. So make sure your essay contains a crispy beginning. Alternatively, make the conclusion so strong and effective that the reader never forgets your essay. Don’t feel afraid to use quotes, catchy lines, slogans and all. They are the cherry on the cake for your essay.

Also Read: Importance of Technology in Education

Also Read: Essay on Athletics in 100, 200 and 300 Words

Sample Essay on Scientific Discoveries

Here is an example of an essay on scientific discoveries to help them out in their school assignments.

Everything around us is a great discovery. Be it a necessity, comfort, or luxury, they all came from different scientific discoveries that took place over some time. Starting from a small pin to a big ship, everything is just a mere invention to make the lives of humans easier. Scientistic discoveries take place in every arena of thought so before we talk about these inventions. Let’s examine what is science. What is science? Science is a system for acquiring knowledge. We use observations, and experimentation to come to a conclusion and explain any natural phenomenon. In simple language, science is the systematic field of study or knowledge gained from experimentations, observations and some accepted facts. And so scientific discoveries have done miracles in human lives. Scientific discoveries and inventions have made our lives easier and more comfortable than we could have ever imagined. Scientific equipment accomplishes lengthy tasks in just minutes. Be it in the health sector, education, transportation, and more. All the inventions are just the gifts of science. Nowadays we are in a situation where without science, we cannot imagine our survival. In the absence of Science, no country, and no single person would have made progress. Scientific discoveries and inventions are machines that accomplish any task of humans either fully or partially. According to the business dictionary, the word ‘invention’ is “a new scientific or technical idea and the means of its embodiment or accomplishment. To be patentable, an invention must be novel, have utility, and be non-obvious. To be called an invention, an idea only needs to be proven as workable. But to be called an innovation, it must also be replicable at an economical cost and must satisfy a specific need. That’s why only a few inventions lead to innovations because not all of them are economically feasible.” Wikipedia further says, “An invention is a unique or novel device, method, composition or process. It may be an improvement upon a machine or product or a new process for creating an object or a result. An invention that achieves a unique function or result may be a radical breakthrough. Such works are novel and not obvious to others skilled in the same field.” These definitions made us clear about how important scientific discovery is for us. Due to science, we can get all kinds of things we desire for. Electricity is a miracle that gives us light even in the dark. It further helps us to run industries conserve the environment and control pollution . A cricket match is going on in America and we can watch it. Why? Inventions! Nowadays medical science is doing its best all over the world. Let us not forget computers, which is the greatest invention of mankind. However, it is rightly said that every coin has two sides. Scientific discoveries and inventions have given us a lot and at the same time created a lot of disadvantages too. Nowadays people have become so dependent on technology that even walking has become difficult. Inventions made people so lazy, especially the young generation. All they could think about now is sitting at their home, with their computers and tablets on.

Gone are the days when people used to go out, play and have actual fun in life. Also, scientific inventions have made people jobless. Employers are substituting their employees with heavy machines. And this is the sad reality everywhere. Along with a luxurious life, technology has made our lives more complicated. People nowadays catch the disease early due to no exercise and sitting in front of their computer the whole day. The biggest and most disastrous inventions are weapons, guns and bombs. What’s worse than taking the life of people? It has ruined unity, peace and harmony all over the world. Scientific discoveries and inventions have contributed so much that my essay would never be enough to explain it. Ultimately, I would like to say that do not take up the monstrous side. Try the blessing of discoveries and make your life better in every aspect.

Also Read: Essay on Information Technology in 400 Words

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Essay on Science in English: Check 200, 300 & 500 Words Essay

Science is the study of logic. It explains why the world is round, why stars twinkle, why light travels faster than sound, why hawks soar higher than crows, why sunflowers face the sun and other phenomena. Science answers every question logically rather than offering mystical interpretations. Students are very interested in science as a topic. This subject is indeed crucial for those hoping to pursue careers in science and related professions.

People who are knowledgeable in science are more self-assured and aware of their environment. Knowing the cause and origin of natural events, a person knowledgeable in science will not be afraid of them.

However, science also has a big impact on a country’s technological advancement and illiteracy.

Table of Content

English-language Long and Short Science Essay

Essay on science (200 words), essay on science (300 words), essay on science (400 words), essay on science (500 words), essay on science (600 words).

We have included a brief and lengthy English essay on science below for your knowledge and convenience. The writings have been thoughtfully crafted to impart to you the relevance and meaning of science. You will understand what science is, why it matters in daily life, and how it advances national progress after reading the writings. These science essays can be used for essay writing, debate, and other related activities at your institution or school.

Science entails a thorough examination of the behavior of the physical and natural world. Research, experimentation, and observation are used in the study.

The scientific disciplines are diverse. The social sciences, formal sciences, and natural sciences are some of them. Subcategories and sub-sub-categories have been created from these basic categories. The natural sciences include physics, chemistry, biology, earth science, and astronomy; the social sciences include history, geography, economics, political science, sociology, psychology, social studies, and anthropology; and the formal sciences include computer science, logic, statistics, decision theory, and mathematics.

The world has positively transformed because of science. Throughout history, science has produced several inventions that have improved human convenience. We cannot fathom our lives without several of these inventions since they have become essential parts of them.

Global scientists persist in their experiments and occasionally produce more advanced innovations, some of which spark global revolutions. Even if science is helpful, some people have abused knowledge, usually those in positions of authority, to drive an arms race and destroy the environment.

There is no common ground between the ideologies of science and religion. These seeming opposite viewpoints have historically led to a number of confrontations and still do.

Science is a way to learn about, comprehend, examine, and experiment with the physical and natural features of the world in order to apply it to the development of newer technologies that improve human convenience. In science, observation and experimentation are broad and not restricted to a specific concept or area of study.

Applications of Science

Science has given us almost everything we use on a daily basis. Everything, from laptops to washing machines, microwaves to cell phones, and refrigerators to cars, is the result of scientific experimentation. Here are some ways that science affects our daily lives:

Not only are refrigerators, grills, and microwaves examples of scientific inventions, but gas stoves, which are frequently used for food preparation, are as well.

Medical Interventions

Scientific advancements have made it feasible to treat a number of illnesses and conditions. Thus, science encourages healthy living and has helped people live longer.

Interaction

These days, mobile phones and internet connections are necessities in our life and were all made possible by scientific advancements. These innovations have lowered barriers to communication and widened global connections.

E nergy Source

The creation and application of numerous energy forms have been facilitated by the discovery of atomic energy. One of its greatest innovations is electricity, and everyone is aware of the effects it has on daily life.

Variety in Cuisine

There has also been an increase in food diversity. These days, a wide variety of fruits and vegetables are available year-round. It’s not necessary to wait for a given season to enjoy a certain meal. This modification is the result of scientific experimentation.

So, science is a part of our daily existence. Without scientific advancements, our lives would have been considerably more challenging and varied. Nonetheless, we cannot ignore the fact that a great deal of scientific innovation has contributed to environmental deterioration and a host of health issues for humankind.

There are essentially three main disciplines of science. The Natural Sciences, Social Sciences, and Formal Sciences are some of them. To examine different aspects, these branches are further divided into subcategories. This is a thorough examination of these groups and their subgroups.

Scientific Subdisciplines

Natural Science

This is the study of natural phenomena, as the name implies. It investigates how the cosmos and the world function. Physical science and life science are subcategories of natural science.

a) Science of Physics

The subcategories of physical science comprise the following:

Physics is the study of matter’s and energy’s properties.
Chemistry is the study of the materials that make up matter.
The study of space and celestial bodies is called astronomy.
Ecology is the study of how living things interact with their natural environments and with one another.
Geology: It studies the composition and physical makeup of Earth.
Earth science is the study of the atmosphere and the physical makeup of the planet.
The study of the physical and biological components and phenomena of the ocean is known as oceanography.
Meteorology: It studies the atmospheric processes.

The subcategories of life science include the following:

The study of living things is called biology.
The study of plants is known as botany.
The study of animals is known as zoology.

c) Social Science

This includes examining social patterns and behavioral patterns in people. It is broken down into more than one subcategory. Among them are:

History: The examination of past occurrences
Political science is the study of political processes and governmental structures.
Geographic: Study of the atmospheric and physical characteristics of Earth.
Human society is studied in social studies.
Sociology: The study of how societies form and operate.

Academic Sciences

It is the area of study that examines formal systems like logic and mathematics. It encompasses the subsequent subcategories:

Numbers are studied in mathematics.
Reasoning is the subject of logic.
Statistics: It is the study of numerical data analysis.
Mathematical analysis of decision-making in relation to profit and loss is known as decision theory.
The study of abstract organization is known as systems theory.
Computer science is the study of engineering and experimentation as a foundation for computer design and use.

Scientists from several fields have been doing in-depth research and testing numerous facets of the subject matter in order to generate novel ideas, innovations, and breakthroughs. Although these discoveries and technologies have made life easier for us, they have also permanently harmed both the environment and living things.

Introduction

Science is the study of various physical and natural phenomena’ structures and behaviors. Before drawing any conclusions, scientists investigate these factors, make extensive observations, and conduct experiments. In the past, science has produced a number of inventions and discoveries that have been beneficial to humanity.

I deas in Religion and Science

In science, new ideas and technologies are developed through a methodical and rational process; in religion, however, beliefs and faith are the only factors considered. In science, conclusions are reached by careful observation, analysis, and experimentation; in religion, however, conclusions are rarely reached through reason. As a result, they have very different perspectives on things.

Science and Religion at Odds

Because science and religion hold different opinions on many issues, they are frequently perceived as being at odds. Unfortunately, these disputes occasionally cause social unrest and innocent people to suffer. These are a few of the most significant disputes that have happened.

The World’s Creation

The world was formed in six days, according to many conservative Christians, sometime between 4004 and 8000 BCE. However, cosmologists assert that the Earth originated about 4.5 billion years ago and that the cosmos may be as old as 13.7 billion years.

The Earth as the Universe’s Center

Among the most well-known clashes is this one. Earth was considered to be the center of the universe by the Roman Catholic Church. They say that it is surrounded by the Sun, Moon, stars, and other planets. Famous Italian mathematician and astronomer Galileo Galilei’s discovery of the heliocentric system—in which the Sun is at the center of the solar system and the Earth and other planets orbit it—led to the conflict.

Eclipses of the Sun and Moon

Iraq was the scene of one of the first wars. The locals were informed by the priests that the moon eclipse was caused by the gods’ restlessness. These were seen as foreboding and intended to overthrow the kings. When the local astronomers proposed a scientific explanation for the eclipse, a disagreement arose.

There are still many myths and superstitions concerning solar and lunar eclipses around the world, despite astronomers providing a compelling and rational explanation for their occurrence.

In addition to these, there are a number of other fields in which religious supporters and scientists hold divergent opinions. While scientists, astronomers, and biologists have evidence to support their claims, the majority of people adhere closely to religious beliefs.

Not only do religious activists frequently oppose scientific methods and ideas, but many other facets of society have also taken issue with science since its discoveries are leading to a host of social, political, environmental, and health problems. Nuclear weapons are one example of a scientific invention that threatens humanity. In addition, the processes involved in preparation and the utilization of the majority of scientifically created equipment contribute to pollution, making life more difficult for all.

In the previous few decades, a number of scientific advancements and discoveries have greatly eased people’s lives. The previous ten years were not an anomaly. A good number of important scientific discoveries were acknowledged. The top ten most amazing recent scientific inventions are shown below.

New Developments and Findings in Science

Amputee Gains Control of Biomechanical Hand via Mental After a tragic accident took away his forearm, Pierpaolo Petruzziello, an Italian, used his mind to control a biomechanical hand attached to his arm. The hand used wires and electrodes to connect to the nerves in his arm. He became the first to become skilled at doing motions like gripping objects, wriggling his fingers, and moving.

The Global Positioning System

In 2005, the Global Positioning System, or GPS as it is more often known, went into commercial use. It was incorporated into mobile devices and worked wonders for tourists all over the world. Traveling to more recent locations and needing instructions couldn’t be simpler.

The Self-Driving Car Toyota debuted Prius shortly after Google launched its own self-driving car experiment in 2008. The accelerator, steering wheel, and brake pedals are absent from this vehicle. It runs without the need for user input because it is driven by an electric motor. To guarantee that the driverless experience is seamless and secure, it is integrated with specialized software, a collection of sensors, and precise digital maps.

Android, widely regarded as one of the most significant innovations of the decade, revolutionized the market by flooding it with devices running Java and Symbian earlier on. These days, Android is the operating system used by the majority of smartphones. Millions of applications are supported by it.

c) Computer Vision

A number of sub-domains fall under the umbrella of computer vision, including learning, video tracking, object recognition, object pose estimation, event detection, indexing, picture restoration, and scene reconstruction. In order to produce symbolic information, the field includes methods for processing, analyzing, obtaining, and understanding images in high-dimensional data from the real world.

d) Touch Screen Technology

It appears that touch screen technology has taken over the planet. The popularity of touch screen gadgets can be attributed to their ease of use. These gadgets are becoming quite popular everywhere.

e) Method of 3D Printing

The 3D printer is capable of producing a wide range of items, such as lamps, cookware, accessories, and much more. Alternatively referred to as additive manufacturing, this process uses digital model data from electronic data sources like Additive Manufacturing Files (AMF) to construct three-dimensional items of any shape.

Git Hub is an online hosting service and version control repository that was founded in 2008. It provides features including bug tracking, task management, feature requests, and the sharing of codes, apps, and other materials. The GitHub platform was first developed in 2007, and the website went live in 2008.

f) Smart Timepieces

The market for smart watches has been around for a while. The more recent models, like the one introduced by Apple, have garnered enormous popularity and come with a number of extra capabilities. Nearly all of the functionality found on smartphones are included in these watches, which are also more convenient to wear and use.

g) Websites for Crowdfunding

The emergence of crowdsourcing websites like Indiegogo, Kickstarter, and GoFundMe has been a blessing for innovators. Inventors, artists, and other creative people can share their ideas and gain the funding they need to put them into action by using these websites.

Global scientists constantly observe and experiment to develop new scientific discoveries that improve people’s lives. Not only do they consistently create new technologies, but they also adapt the ones that already exist whenever there is an opportunity. Even while these innovations have made life easier for humans, you are all aware of the numerous environmental, social, and political risks they have brought about.

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Essay on Science- FAQs

Who is father of science.

Galileo is the father of science.

Why is it called science?

The word “scientia” has Latin origins and originally meant “knowledge,” “an expertness,” or “experience.”

What is science for students?

Science is the study of the world by observation, recording, listening, and watching. Science is the application of intellectual inquiry into the nature of the world and its behavior. Think like a scientist, anyone can.

What is science’s primary goal or objective?

Science’s primary goal is to provide an explanation for the facts. Moreover, science does not prohibit the explanation of facts in an arbitrary manner. Additionally, science organizes the data and develops theories to explain the data.

Describe what a scientific fact is.

Repeatable, meticulous observations or measurements made through experiments or other methods are referred to as scientific facts. Furthermore, empirical evidence is another name for a scientific fact. Most importantly, the development of scientific hypotheses depends on scientific facts.

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17 Essay Conclusion Examples (Copy and Paste)

essay conclusion examples and definition, explained below

Essay conclusions are not just extra filler. They are important because they tie together your arguments, then give you the chance to forcefully drive your point home.

I created the 5 Cs conclusion method to help you write essay conclusions:

I’ve previously produced the video below on how to write a conclusion that goes over the above image.

The video follows the 5 C’s method ( you can read about it in this post ), which doesn’t perfectly match each of the below copy-and-paste conclusion examples, but the principles are similar, and can help you to write your own strong conclusion:

💡 New! Try this AI Prompt to Generate a Sample 5Cs Conclusion This is my essay: [INSERT ESSAY WITHOUT THE CONCLUSION]. I want you to write a conclusion for this essay. In the first sentence of the conclusion, return to a statement I made in the introduction. In the second sentence, reiterate the thesis statement I have used. In the third sentence, clarify how my final position is relevant to the Essay Question, which is [ESSAY QUESTION]. In the fourth sentence, explain who should be interested in my findings. In the fifth sentence, end by noting in one final, engaging sentence why this topic is of such importance.

Remember: The prompt can help you generate samples but you can’t submit AI text for assessment. Make sure you write your conclusion in your own words.

Essay Conclusion Examples

Below is a range of copy-and-paste essay conclusions with gaps for you to fill-in your topic and key arguments. Browse through for one you like (there are 17 for argumentative, expository, compare and contrast, and critical essays). Once you’ve found one you like, copy it and add-in the key points to make it your own.

1. Argumentative Essay Conclusions

The arguments presented in this essay demonstrate the significant importance of _____________. While there are some strong counterarguments, such as ____________, it remains clear that the benefits/merits of _____________ far outweigh the potential downsides. The evidence presented throughout the essay strongly support _____________. In the coming years, _____________ will be increasingly important. Therefore, continual advocacy for the position presented in this essay will be necessary, especially due to its significant implications for _____________.

Version 1 Filled-In

The arguments presented in this essay demonstrate the significant importance of fighting climate change. While there are some strong counterarguments, such as the claim that it is too late to stop catastrophic change, it remains clear that the merits of taking drastic action far outweigh the potential downsides. The evidence presented throughout the essay strongly support the claim that we can at least mitigate the worst effects. In the coming years, intergovernmental worldwide agreements will be increasingly important. Therefore, continual advocacy for the position presented in this essay will be necessary, especially due to its significant implications for humankind.

As this essay has shown, it is clear that the debate surrounding _____________ is multifaceted and highly complex. While there are strong arguments opposing the position that _____________, there remains overwhelming evidence to support the claim that _____________. A careful analysis of the empirical evidence suggests that _____________ not only leads to ____________, but it may also be a necessity for _____________. Moving forward, _____________ should be a priority for all stakeholders involved, as it promises a better future for _____________. The focus should now shift towards how best to integrate _____________ more effectively into society.

Version 2 Filled-In

As this essay has shown, it is clear that the debate surrounding climate change is multifaceted and highly complex. While there are strong arguments opposing the position that we should fight climate change, there remains overwhelming evidence to support the claim that action can mitigate the worst effects. A careful analysis of the empirical evidence suggests that strong action not only leads to better economic outcomes in the long term, but it may also be a necessity for preventing climate-related deaths. Moving forward, carbon emission mitigation should be a priority for all stakeholders involved, as it promises a better future for all. The focus should now shift towards how best to integrate smart climate policies more effectively into society.

Based upon the preponderance of evidence, it is evident that _____________ holds the potential to significantly alter/improve _____________. The counterarguments, while noteworthy, fail to diminish the compelling case for _____________. Following an examination of both sides of the argument, it has become clear that _____________ presents the most effective solution/approach to _____________. Consequently, it is imperative that society acknowledge the value of _____________ for developing a better _____________. Failing to address this topic could lead to negative outcomes, including _____________.

Version 3 Filled-In

Based upon the preponderance of evidence, it is evident that addressing climate change holds the potential to significantly improve the future of society. The counterarguments, while noteworthy, fail to diminish the compelling case for immediate climate action. Following an examination of both sides of the argument, it has become clear that widespread and urgent social action presents the most effective solution to this pressing problem. Consequently, it is imperative that society acknowledge the value of taking immediate action for developing a better environment for future generations. Failing to address this topic could lead to negative outcomes, including more extreme climate events and greater economic externalities.

2. Expository Essay Conclusions

Overall, it is evident that _____________ plays a crucial role in _____________. The analysis presented in this essay demonstrates the clear impact of _____________ on _____________. By understanding the key facts about _____________, practitioners/society are better equipped to navigate _____________. Moving forward, further exploration of _____________ will yield additional insights and information about _____________. As such, _____________ should remain a focal point for further discussions and studies on _____________.

Overall, it is evident that social media plays a crucial role in harming teenagers’ mental health. The analysis presented in this essay demonstrates the clear impact of social media on young people. By understanding the key facts about the ways social media cause young people to experience body dysmorphia, teachers and parents are better equipped to help young people navigate online spaces. Moving forward, further exploration of the ways social media cause harm will yield additional insights and information about how it can be more sufficiently regulated. As such, the effects of social media on youth should remain a focal point for further discussions and studies on youth mental health.

To conclude, this essay has explored the multi-faceted aspects of _____________. Through a careful examination of _____________, this essay has illuminated its significant influence on _____________. This understanding allows society to appreciate the idea that _____________. As research continues to emerge, the importance of _____________ will only continue to grow. Therefore, an understanding of _____________ is not merely desirable, but imperative for _____________.

To conclude, this essay has explored the multi-faceted aspects of globalization. Through a careful examination of globalization, this essay has illuminated its significant influence on the economy, cultures, and society. This understanding allows society to appreciate the idea that globalization has both positive and negative effects. As research continues to emerge, the importance of studying globalization will only continue to grow. Therefore, an understanding of globalization’s effects is not merely desirable, but imperative for judging whether it is good or bad.

Reflecting on the discussion, it is clear that _____________ serves a pivotal role in _____________. By delving into the intricacies of _____________, we have gained valuable insights into its impact and significance. This knowledge will undoubtedly serve as a guiding principle in _____________. Moving forward, it is paramount to remain open to further explorations and studies on _____________. In this way, our understanding and appreciation of _____________ can only deepen and expand.

Reflecting on the discussion, it is clear that mass media serves a pivotal role in shaping public opinion. By delving into the intricacies of mass media, we have gained valuable insights into its impact and significance. This knowledge will undoubtedly serve as a guiding principle in shaping the media landscape. Moving forward, it is paramount to remain open to further explorations and studies on how mass media impacts society. In this way, our understanding and appreciation of mass media’s impacts can only deepen and expand.

In conclusion, this essay has shed light on the importance of _____________ in the context of _____________. The evidence and analysis provided underscore the profound effect _____________ has on _____________. The knowledge gained from exploring _____________ will undoubtedly contribute to more informed and effective decisions in _____________. As we continue to progress, the significance of understanding _____________ will remain paramount. Hence, we should strive to deepen our knowledge of _____________ to better navigate and influence _____________.

In conclusion, this essay has shed light on the importance of bedside manner in the context of nursing. The evidence and analysis provided underscore the profound effect compassionate bedside manner has on patient outcome. The knowledge gained from exploring nurses’ bedside manner will undoubtedly contribute to more informed and effective decisions in nursing practice. As we continue to progress, the significance of understanding nurses’ bedside manner will remain paramount. Hence, we should strive to deepen our knowledge of this topic to better navigate and influence patient outcomes.

See More: How to Write an Expository Essay

3. Compare and Contrast Essay Conclusion

While both _____________ and _____________ have similarities such as _____________, they also have some very important differences in areas like _____________. Through this comparative analysis, a broader understanding of _____________ and _____________ has been attained. The choice between the two will largely depend on _____________. For example, as highlighted in the essay, ____________. Despite their differences, both _____________ and _____________ have value in different situations.

While both macrosociology and microsociology have similarities such as their foci on how society is structured, they also have some very important differences in areas like their differing approaches to research methodologies. Through this comparative analysis, a broader understanding of macrosociology and microsociology has been attained. The choice between the two will largely depend on the researcher’s perspective on how society works. For example, as highlighted in the essay, microsociology is much more concerned with individuals’ experiences while macrosociology is more concerned with social structures. Despite their differences, both macrosociology and microsociology have value in different situations.

It is clear that _____________ and _____________, while seeming to be different, have shared characteristics in _____________. On the other hand, their contrasts in _____________ shed light on their unique features. The analysis provides a more nuanced comprehension of these subjects. In choosing between the two, consideration should be given to _____________. Despite their disparities, it’s crucial to acknowledge the importance of both when it comes to _____________.

It is clear that behaviorism and consructivism, while seeming to be different, have shared characteristics in their foci on knowledge acquisition over time. On the other hand, their contrasts in ideas about the role of experience in learning shed light on their unique features. The analysis provides a more nuanced comprehension of these subjects. In choosing between the two, consideration should be given to which approach works best in which situation. Despite their disparities, it’s crucial to acknowledge the importance of both when it comes to student education.

Reflecting on the points discussed, it’s evident that _____________ and _____________ share similarities such as _____________, while also demonstrating unique differences, particularly in _____________. The preference for one over the other would typically depend on factors such as _____________. Yet, regardless of their distinctions, both _____________ and _____________ play integral roles in their respective areas, significantly contributing to _____________.

Reflecting on the points discussed, it’s evident that red and orange share similarities such as the fact they are both ‘hot colors’, while also demonstrating unique differences, particularly in their social meaning (red meaning danger and orange warmth). The preference for one over the other would typically depend on factors such as personal taste. Yet, regardless of their distinctions, both red and orange play integral roles in their respective areas, significantly contributing to color theory.

Ultimately, the comparison and contrast of _____________ and _____________ have revealed intriguing similarities and notable differences. Differences such as _____________ give deeper insights into their unique and shared qualities. When it comes to choosing between them, _____________ will likely be a deciding factor. Despite these differences, it is important to remember that both _____________ and _____________ hold significant value within the context of _____________, and each contributes to _____________ in its own unique way.

Ultimately, the comparison and contrast of driving and flying have revealed intriguing similarities and notable differences. Differences such as their differing speed to destination give deeper insights into their unique and shared qualities. When it comes to choosing between them, urgency to arrive at the destination will likely be a deciding factor. Despite these differences, it is important to remember that both driving and flying hold significant value within the context of air transit, and each contributes to facilitating movement in its own unique way.

See Here for More Compare and Contrast Essay Examples

4. Critical Essay Conclusion

In conclusion, the analysis of _____________ has unveiled critical aspects related to _____________. While there are strengths in _____________, its limitations are equally telling. This critique provides a more informed perspective on _____________, revealing that there is much more beneath the surface. Moving forward, the understanding of _____________ should evolve, considering both its merits and flaws.

In conclusion, the analysis of flow theory has unveiled critical aspects related to motivation and focus. While there are strengths in achieving a flow state, its limitations are equally telling. This critique provides a more informed perspective on how humans achieve motivation, revealing that there is much more beneath the surface. Moving forward, the understanding of flow theory of motivation should evolve, considering both its merits and flaws.

To conclude, this critical examination of _____________ sheds light on its multi-dimensional nature. While _____________ presents notable advantages, it is not without its drawbacks. This in-depth critique offers a comprehensive understanding of _____________. Therefore, future engagements with _____________ should involve a balanced consideration of its strengths and weaknesses.

To conclude, this critical examination of postmodern art sheds light on its multi-dimensional nature. While postmodernism presents notable advantages, it is not without its drawbacks. This in-depth critique offers a comprehensive understanding of how it has contributed to the arts over the past 50 years. Therefore, future engagements with postmodern art should involve a balanced consideration of its strengths and weaknesses.

Upon reflection, the critique of _____________ uncovers profound insights into its underlying intricacies. Despite its positive aspects such as ________, it’s impossible to overlook its shortcomings. This analysis provides a nuanced understanding of _____________, highlighting the necessity for a balanced approach in future interactions. Indeed, both the strengths and weaknesses of _____________ should be taken into account when considering ____________.

Upon reflection, the critique of marxism uncovers profound insights into its underlying intricacies. Despite its positive aspects such as its ability to critique exploitation of labor, it’s impossible to overlook its shortcomings. This analysis provides a nuanced understanding of marxism’s harmful effects when used as an economic theory, highlighting the necessity for a balanced approach in future interactions. Indeed, both the strengths and weaknesses of marxism should be taken into account when considering the use of its ideas in real life.

Ultimately, this critique of _____________ offers a detailed look into its advantages and disadvantages. The strengths of _____________ such as __________ are significant, yet its limitations such as _________ are not insignificant. This balanced analysis not only offers a deeper understanding of _____________ but also underscores the importance of critical evaluation. Hence, it’s crucial that future discussions around _____________ continue to embrace this balanced approach.

Ultimately, this critique of artificial intelligence offers a detailed look into its advantages and disadvantages. The strengths of artificial intelligence, such as its ability to improve productivity are significant, yet its limitations such as the possibility of mass job losses are not insignificant. This balanced analysis not only offers a deeper understanding of artificial intelligence but also underscores the importance of critical evaluation. Hence, it’s crucial that future discussions around the regulation of artificial intelligence continue to embrace this balanced approach.

This article promised 17 essay conclusions, and this one you are reading now is the twenty-first. This last conclusion demonstrates that the very best essay conclusions are written uniquely, from scratch, in order to perfectly cater the conclusion to the topic. A good conclusion will tie together all the key points you made in your essay and forcefully drive home the importance or relevance of your argument, thesis statement, or simply your topic so the reader is left with one strong final point to ponder.

Chris Drew (PhD)

Dr. Chris Drew is the founder of the Helpful Professor. He holds a PhD in education and has published over 20 articles in scholarly journals. He is the former editor of the Journal of Learning Development in Higher Education. [Image Descriptor: Photo of Chris]

Chris Drew (PhD) https://helpfulprofessor.com/author/chris-drew-phd/ 5 Top Tips for Succeeding at University
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A Simple Act of Defiance Can Improve Science for Women

An illustration of a mother and daughter laying their heads on soil in a forest and looking at red-and-white mushrooms.

By Toby Kiers

Dr. Kiers is a professor of evolutionary biology at Vrije Universiteit in Amsterdam and the executive director of SPUN, a research organization that advocates the protection of mycorrhizal fungal communities.

They don’t tell you beforehand that it will be a choice between having a career in science or starting a family. But that’s the message I heard loud and clear 17 years ago, in my first job after completing my Ph.D. in evolutionary biology. During a routine departmental meeting, a senior academic announced that pregnant women were a financial drain on the department. I was sitting visibly pregnant in the front row. No one said anything.

I took a leave of absence when that child, my daughter, was born. Two years later, I had a son. That second pregnancy was a surprise, and I worried that taking another leave would sink my career. So I pressed on. When my son was barely 3 weeks old, I flew nine hours to a conference with him strapped to my chest. Before delivering my talk, I made a lame joke that the audience should forgive any “brain fog.” Afterward, an older woman pulled me aside and told me that being self-deprecating in public was a disservice to women scientists.

It felt like an impossible choice: to be a bad scientist or a bad mother.

The data suggests I wasn’t alone in feeling those pressures. A study published in 2019 found that more than 40 percent of female scientists in the United States leave full-time work in science after their first child. In 2016, men held about 70 percent of all research positions in science worldwide. Especially for field researchers like me, who collect data in remote and sometimes perilous locations, motherhood can feel at odds with a scientific career.

How have I addressed the problem? Through an act of academic defiance: I bring my kids with me on my scientific expeditions. It’s a form of rebellion that is available to mothers not just in the sciences but also in other disciplines that require site visits and field work, such as architecture and journalism. Bringing your kids to work with you doesn’t have to be something you do only once a year .

It started for me as a simple necessity. When my son was just under 2 and my daughter not yet 4, I took them on an expedition to the base of Mount Kenya in Africa, to study how fungi help trees defend themselves against the elephants and giraffes who feed on them. My son was still nursing, and I didn’t want to stop working. My husband, a poet, came along to stay with them at base camp.

As time went on, I began to embrace the decision to bring my kids with me on my expeditions, not as an exigency of parenting but as a kind of feminist act. When meeting other scientists in the field, the reaction was typically the same: They assumed my husband was leading the expedition. Once the facts were established, researchers were supportive and even willing to lend a hand.

Looking back at those expeditions now — after more than a dozen, in far-flung areas around the globe — I understand that bringing them into the field was more than a rebellion: Their presence on those trips also changed the way I do science, and for the better.

I started tasting soils in the field — a technique I now use to notice subtle differences across ecosystems — only after seeing my kids eat dirt. Children have an uncanny ability to make local friends quickly; many of those new friends have led me to obscure terrain and hidden fungal oases that I otherwise would never have come across. And my kids’ naïve minds routinely force me to rethink old assumptions by asking questions that are simultaneously absurd and profound. Can you taste clouds? Do fungi dream? How loud are our footsteps underground?

What can feel like an inconvenience is often a blessing in disguise. Children force the patience that scientific discovery demands. Last year, my kids and I traveled to Lesotho , in southern Africa. Collecting fungi in such a rugged landscape required horses, guides and months of precise planning. But my daughter caught the flu. Rather than mapping underground fungal life, we spent the week in a hut in a highland village with no running water or electricity, eating fermented sorghum. As the days ticked by, I began to panic, thinking of the fungi that would remain unsampled.

But one morning, as my daughter’s health improved, we were invited to cross a small mountain pass on horses. The local herder allowed me to collect dark soil among the agricultural ruins of his ancestral village. It was a type of soil I had never seen — with fungi that would have remained undescribed had we stayed on track. Thank you, chaos; thank you, kids.

Bringing my kids with me continues to challenge expectations, and not only among fellow scientists. In the summer of 2022, my kids and I embarked on an expedition in Italy to study fungi exposed to extreme heat and wildfire. Hiking across mountains with kids was hard and made even more arduous because a documentary film crew followed us. As we wrangled fungi in burn sites, the cameraman strategically positioned me for shots without my kids, presumably so the footage would look more “professional.”

Female scientists are right to fear being seen as unprofessional. How we talk, how we dress, is constantly under scrutiny — and so many of us mirror our male colleagues. Any deviation from that standard is often considered suspect. The primatologist Jane Goodall famously placed her young son in a cage so that he could safely join her in the field, and it is still a point of controversy, decades later.

At its core, feminism is about having the power to choose. For female scientists, this means having the ability to bring children into the field — or the full support to leave them at home. The pressure is acute because, as research shows, women on scientific teams are significantly less likely than men to be credited with authorship. So for me, it is crucial to keep collecting data with my own hands.

What do my kids make of all this? They both love and hate our expeditions. Frustrated by a grueling day of field work recently, my teenage daughter screamed at me, “You love science more than you love me!” In that moment, she — like so much of the scientific world — believed that the decision was binary: science or family. But by taking her with me into the field, I am relentlessly affirming that I won’t make that choice. My kids won’t make that choice either: They recently helped start a youth climate group to help protect soil fungi, including by organizing protests.

We are taught that good science requires detachment. But what if being a mother — with all the attachments that entails — allows you to explore different but equally fruitful scientific narratives? Last year, an article by the editor who oversees the Science journals argued that scientists should not be “afraid to acknowledge their humanity.” We should take that sound advice a step further and challenge the ideal of detachment. Perhaps by exposing our vulnerabilities — such as the children we are raising — we can change the system.

Toby Kiers ( @KiersToby ) is a professor of evolutionary biology at Vrije Universiteit in Amsterdam and the executive director of SPUN , a research organization that advocates for the protection of mycorrhizal fungal communities.

The Times is committed to publishing a diversity of letters to the editor. We’d like to hear what you think about this or any of our articles. Here are some tips . And here’s our email: [email protected] .

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Wayne State University

School of information sciences, school of information sciences current students, instructions for writing reflective essays.

Instructions

In the reflective essay, the student will discuss how s/he has developed as an information professional during the School. The student will discuss each of the four MLIS student learning outcomes, and demonstrate how they have become proficient in these learning outcomes.

The essay should following standard writing practice, with introduction, subheadings, and conclusion piece, free of grammar and typo mistakes. References are required.

For each MLIS learning outcome, the student uses 300-350 words to demonstrate their understanding of the learning outcome, and then uses an appropriate artifact to support their competency in the learning outcome.

Since multiple components are included in each learning outcome, the student can address one or two components for each learning outcome. Please use several sentences to justify your focus on those components.

For example : for LO#3, “Demonstrate professional competency, including critical thinking, research, communication, cultural competence, technology development, digital literacy, leadership, lifelong learning, and adherence to professional ethics”, students might address only “technology development” and “lifelong learning” components in their reflections.

As a concluding piece of the essay, the student will include their stance or philosophy of the information profession. The student will gird the philosophy piece using readings of the research, professional literature, personal experiences, and the learning outcomes. Students can address questions like: What is an information professional? What are the characteristics, qualities and knowledge that will be most important to you as an information professional?

Use of writing in the first person is encouraged. Essay Submission

The final product will be a 1400-1700 word reflective essay, with suitable and ethical citation practices followed (final word count excludes bibliography). Please note that this is not a personal history or review of courses taken during the School. Instead, it is an articulation of your growth as an information professional and your adoption of a personal professional philosophy.

You may submit the reflective essay in .doc, .docx, or pdf formats. Please do not submit the essay in .zip or .rar format.

Make sure your reflective essay has the following elements:

Introduction

Discussion of each MLIS learning outcome

Discussion of appropriate artifacts in relation to each MLIS learning outcome

Professional philosophy

Conclusion

References

Wonder of Science Essay for Students and Children

500+ words essay on wonder of science.

Wonder of Science Essay: Looking at the age when a man led a life like a savage, we notice how far we have come. Similarly, the evolution of mankind is truly commendable. One of the major driving forces behind this is science. It makes you think about the wonder of science and how it has proven to be such a boon in our lives. Most importantly, science has helped develop a great civilization . All the advancements that man has been able to make are with the help of science only. However, it won’t be wrong to say that science is a two-edged sword. It comes with its own set of advantages and disadvantages.

Advantages of Science

To say that science has a lot of benefits would be an understatement. The benefits of science do not just limit to one sphere, but it has proven useful in various spheres of the world. When we talk about innovations in science and engineering, electricity is the first thing that comes to mind. It has helped power the world through its development.

That is to say, all the credit goes to science, as it weren’t for science, life in the 21st century would be impossible. After all, it is quite hard to imagine a world without computers , medicines , televisions , AC’s, automobiles and more. In addition, science has contributed largely to the medical field as well.

It has helped cure deadly diseases and also perform surgeries which were hard to perform before. Therefore, science has changed the world in unimaginable ways.

Get the huge list of more than 500 Essay Topics and Ideas

Disadvantages of Science

As the saying goes ‘there is no rainbow without rain’, similarly science has drawbacks of its own. One must always remember that anything in excess is poison, and science is no different. If it falls into evil hands, it can cause destruction on a massive level. For instance, science is used to create nuclear weapons.

These are deadly enough to cause war and wipe out full-fledged countries. Another drawback is the pollution caused by it. As the world became more industrialized because of science, pollution levels increased. All the high-scale industries are now polluting natural resources like water, air, wood, and more.

Subsequently, this industrial growth has increased rates of unemployment as machines are replacing human labor. So, we see how it also has a considerable amount of drawbacks as well.

In conclusion, we can say that surely science is very beneficial to the modern man. But, innovations and discoveries have also become destructive in various ways for mankind.

Therefore, it must be properly used for the greater benefit of mankind. We must ensure the wise use of these scientific inventions in order to save the world from the evil side of science. As Dr. A.P.J. Abdul Kalam once stated that science is a beautiful gift to humanity, we must not distort it, likewise, we must live by this quote and monitor the utilization.

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The best new science fiction books of May 2024

A new Stephen King short story collection, an Ursula K. Le Guin reissue and a celebration of cyberpunk featuring writing from Philip K. Dick and Cory Doctorow are among the new science fiction titles published this month

By Alison Flood

A new short story collection from Stephen King, You Like It Darker, is out in May

Shane Leonard

Every month, I trawl through publishers’ catalogues so I can tell you about the new science fiction being released. And every month, I’m disappointed to see so much more fantasy on publishers’ lists than sci-fi. I know it’s a response to the huge boom in readers of what’s been dubbed “ romantasy ”, and I’m not knocking it – I love that sort of book too. But it would be great to see more good, hard, mind-expanding sci-fi in the offing as well.

In the meantime, there is definitely enough for us sci-fi fans to sink our teeth into this month, whether it’s a reissue of classic writing from Ursula K. Le Guin, some new speculative short stories from Stephen King or murder in space from Victor Manibo and S. A. Barnes.

Last month, I tipped Douglas Preston’s Extinction and Sofia Samatar’s The Practice, the Horizon, and the Chain as books I was looking forward to. I can report that they were both excellent: Extinction was a lot of good, clean, Jurassic Park -tinged fun, while Samatar’s offering was a beautiful and thought-provoking look at life on a generation ship.

The Language of the Night: Essays on writing, science fiction, and fantasy by Ursula K. Le Guin

There are few sci-fi and fantasy writers more brilliant (and revered) than Ursula K. Le Guin. This reissue of her first full-length collection of essays features a new introduction from Hugo and Nebula award-winner Ken Liu and covers the writing of The Left Hand of Darkness and A Wizard of Earthsea , as well as her advocacy for sci-fi and fantasy as legitimate literary mediums. I’ve read some of these essays but not all, and I won’t be missing this collection.

Nuclear War: A Scenario by Annie Jacobsen

This isn’t science fiction, not quite, but it is one of the best and most important books I have read for some time. It sees Jacobsen lay out, minute by minute, what would happen if an intercontinental ballistic missile hit Washington DC. How would the US react? What, exactly, happens if deterrence fails? Jacobsen has spoken to dozens of military experts to put together what her publisher calls a “non-fiction thriller”, and what I call the scariest book I have possibly ever read (and I’m a Stephen King fan; see below). We’re currently reading it at the New Scientist Book Club, and you can sign up to join us here .

Read an extract from Nuclear War: A scenario by Annie Jacobsen

In this terrifying extract from Annie Jacobsen’s Nuclear War: A Scenario, the author lays out what would happen in the first seconds after a nuclear missile hits the Pentagon

The Big Book of Cyberpunk (Vol 1 & 2)

Forty years ago, William Gibson published Neuromancer . Since then, it has entranced millions of readers right from its unforgettable opening line: “The sky above the port was the color of television, tuned to a dead channel…”. Neuromancer gave us the literary genre that is cyberpunk, and we can now welcome a huge, two-volume anthology celebrating cyberpunk’s best stories, by writers from Cory Doctorow to Justina Robson, and from Samuel R. Delaney to Philip K. Dick. I have both glorious-sounding volumes, brought together by anthologist Jared Shurin, on my desk (using up most of the space on it), and I am looking forward to dipping in.

You Like It Darker by Stephen King

You could categorise Stephen King as a horror writer. I see him as an expert chronicler of the dark side of small-town America, and from The Tommyknockers and its aliens to Under the Dome with its literally divisive trope, he frequently slides into sci-fi. Even the horror at the heart of It is some sort of cosmic hideousness. He is one of my favourite writers, and You Like It Darker is a new collection of short stories that moves from “the folds in reality where anything can happen” to a “psychic flash” that upends dozens of lives. There’s a sequel to Cujo , and a look at “corners of the universe best left unexplored”. I’ve read the first story so far, and I can confirm there is plenty for us sci-fi fans here.

Enlightenment by Sarah Perry

Not sci-fi, but fiction about science – and from one of the UK’s most exciting writers (if you haven’t read The Essex Serpent yet, you’re in for a treat). This time, Perry tells the story of Thomas Hart, a columnist on the Essex Chronicle who becomes a passionate amateur astronomer as the comet Hale-Bopp approaches in 1997. Our sci-fi columnist Emily Wilson is reviewing it for New Scientist ’s 11 May issue, and she has given it a vigorous thumbs up (“a beautiful, compassionate and memorable book,” she writes in a sneak preview just for you guys).

Ghost Station by S.A. Barnes

Dr Ophelia Bray is a psychologist and expert in the study of Eckhart-Reiser syndrome, a fictional condition that affects space travellers in terrible ways. She’s sent to help a small crew whose colleague recently died, but as they begin life on an abandoned planet, she realises that her charges are hiding something. And then the pilot is murdered… Horror in space? Mysterious planets? I’m up for that.

In Hey, Zoey, the protagonist finds an animatronic sex doll hidden in her garage

Shutterstock / FOTOGRIN

Hey, Zoey by Sarah Crossan

Hot on the heels of Sierra Greer’s story about a sex robot wondering what it means to be human in Annie Bot , the acclaimed young adult and children’s author Sarah Crossan has ventured into similar territory. In Hey, Zoey , Dolores finds an animatronic sex doll hidden in her garage and assumes it belongs to her husband David. She takes no action – but then Dolores and Zoey begin to talk, and Dolores’s life changes.

How to Become the Dark Lord and Die Trying by Django Wexler

Davi has tried to take down the Dark Lord before, rallying humanity and making the final charge – as you do. But the time loop she is stuck in always defeats her, and she loses the battle in the end. This time around, Davi decides that the best thing to do is to become the Dark Lord herself. You could argue that this is fantasy, but it has a time loop, so I’m going to count it as sci-fi. It sounds fun and lighthearted: quotes from early readers are along the lines of “A darkly comic delight”, and we could all use a bit of that these days.

Escape Velocity by Victor Manibo

It’s 2089, and there’s an old murder hanging over the clientele of Space Habitat Altaire, a luxury space hotel, while an “unforeseen threat” is also brewing in the service corridors. A thriller in space? Sounds excellent – and I’m keen to see if Manibo makes use of the latest research into the angle at which blood might travel following violence in space, as reported on by our New Scientist humour columnist Marc Abrahams recently.

The best new science fiction books of March 2024

With a new Adrian Tchaikovsky, Mars-set romance from Natasha Pulley and a high-concept thriller from Stuart Turton due to hit shelves, there is plenty of great new science fiction to be reading in March

In Our Stars by Jack Campbell

Part of the Doomed Earth series, this follows Lieutenant Selene Genji, who has been genetically engineered with partly alien DNA and has “one last chance to save the Earth from destruction”. Beautifully retro cover for this space adventure – not to judge a book in this way, of course…

The Downloaded by Robert J. Sawyer

Two sets of people have had their minds uploaded into a quantum computer in the Ontario of 2059. Astronauts preparing for the world’s first interstellar voyage form one group; the other contains convicted murderers, sentenced to a virtual-reality prison. Naturally, disaster strikes, and, yup, they must work together to save Earth from destruction. Originally released as an Audible Original with Brendan Fraser as lead narrator, this is the first print edition of the Hugo and Nebula award-winning Sawyer’s 26 th novel.

The Ferryman by Justin Cronin

Just in case you still haven’t read it, Justin Cronin’s gloriously dreamy novel The Ferryman , set on an apparently utopian island where things aren’t quite as they seem, is out in paperback this month. It was the first pick for the New Scientist Book Club, and it is a mind-bending, dreamy stunner of a read. Go try it – and sign up for the Book Club in the meantime!

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Should A.I. Write Your College Essays?

Cartoon by Dave Granlund

College admissions officers—and high school students—wrestle with A.I.-generated college essays

Ritika Vakharia, a senior at the Gwinnett School of Mathematics, Science, and Technology in Georgia, says she tried asking ChatGPT to produce ideas for college admissions essays. But she found the responses too broad and impersonal, even after she gave it details about her extracurricular activities, such as teaching dance classes to younger students.

Instead, she worked to come up with a more personal college application essay theme.

“I feel a little more pressure to create, like, this super unique, interesting topic,” Vakharia says, “because a basic one these days could just be generated by ChatGPT.”

The easy availability of A.I. chatbots like ChatGPT, which can manufacture humanlike text in response to short prompts, is upending the undergraduate application process at selective colleges. It’s either ushering in an era of automated plagiarism or of democratized student access to essay-writing help. Or maybe both.

The disruption comes at a turning point for U.S. institutions of higher education. After the Supreme Court ruled last June that race-based university admissions programs were illegal, some institutions hoped to rely more on essay questions about applicants’ upbringing, identities, and communities to help foster diversity on campus.

“It makes me sad,” Lee Coffin, the dean of admissions at Dartmouth College, said in a podcast last year that touched on A.I.-generated application essays. “The idea that this central component of a story could be manufactured by someone other than the applicant is disheartening.”

Ritika Vakharia is a senior at the Gwinnett School of Mathematics, Science, and Technology in Georgia. She tried asking ChatGPT for ideas for her college admissions essays. She found the responses too broad and impersonal. She had even given it details about her extracurricular activities, including teaching dance classes to younger students.

So instead of using ChatGPT’s ideas, she decided to come up with a more personal essay theme.

A.I. chatbots like ChatGPT can manufacture humanlike text in response to short prompts. The availability of chatbots is changing the undergraduate application process at selective colleges. It’s either starting a time of automated plagiarism or of universal student access to essay-writing help. Or maybe both.

These technologies come at a turning point for U.S. institutions of higher education. The Supreme Court ruled last June that race-based university admissions programs were illegal. Some institutions hoped to rely more on essay questions about applicants’ upbringing, identities, and communities to help develop diversity on campus.

Alyssa Pointer/The New York Times

“I feel a little more pressure to create, like, this super unique, interesting topic because a basic one these days could just be generated by ChatGPT.” —Ritika Vakharia

New A.I. Tools

The personal essay has long been a staple of the application process at colleges. Admissions officers have often used applicants’ essays as a lens into their unique character, pluck, potential, and ability to handle adversity. As a result, some former students say they felt tremendous pressure to develop, or at least concoct, a singular personal writing voice.

But new A.I. tools now threaten to cast doubt on the legitimacy of applicants’ writing samples as authentic products of their intellect and creativity. That has forced colleges to rethink their admissions processes.

“Students on some level are going to have access to and use A.I.,” says Rick Clark, executive director of undergraduate admission at the Georgia Institute of Technology. “The big question is: How do we want to direct them, knowing that it’s out there and available to them?”

Some teachers are troubled by students using A.I. to write their college essays for deeper reasons: Outsourcing writing to bots could hinder students from developing important critical thinking and storytelling skills.

“Part of the process of the college essay is finding your writing voice through all of that drafting and revising,” says Susan Barber, an Advanced Placement English literature teacher at Midtown High School, a public school in Atlanta. “And I think that’s something that ChatGPT would be robbing them of.”

The personal essay has long been an important part of the application process at colleges. Admissions officers have used essays as a way to see into applicants’ unique character, potential, and ability to handle adversity. As a result, some former students say they felt tremendous pressure. They felt they had to develop, or at least concoct, a singular personal writing voice.

But new A.I. tools now threaten to cast doubt on the validity of applicants’ writing samples as real products of their intellect and creativity. Colleges are forced to rethink their admissions processes.

Some teachers are troubled by students using A.I. to write their college essays for deeper reasons. Using bots to write could keep students from developing important critical thinking and storytelling skills.

Kendrick Brinson/The New York Times

“Part of the process of the college essay is finding your writing voice . . . And I think that’s something that ChatGPT would be robbing them of.” —Susan Barber, AP English literature Teacher in Atlanta

Last August, Barber asked her 12th-grade students to write college essays. Then she held class discussions about ChatGPT, cautioning students that using A.I. chatbots to generate ideas or writing could make their college essays sound too generic. She advised them to focus more on their personal views and voices.

Yet other educators say they hope the A.I. tools might have a democratizing effect. Wealthy high school students often have access to resources to help brainstorm, draft, and edit their college admissions essays. ChatGPT could play a similar role for students who lack such resources, especially those at large high schools where overworked college counselors have little time for individualized essay coaching.

“It’s free, it’s accessible, and it’s helpful,” says Clark. “It’s progress toward equity.”

At the same time, as colleges wrestle with just how to handle the explosion of literate A.I. bots, some students, like Kevin Jacob, a senior at the Gwinnett School, are unsure how to proceed.

“The vagueness and ambiguity,” Jacob says, “is kind of hard for us.”

Last August, Barber asked her 12th-grade students to write college essays. Then she held class discussions about ChatGPT. She warned students that using A.I. chatbots to generate ideas or writing could make their college essays sound too generic. She advised them to focus more on their personal views and voices.

Yet other educators say they hope the A.I. tools might have an equalizing effect. Wealthy high school students often have access to more resources. They get help to brainstorm, draft, and edit their college admissions essays. ChatGPT could play a similar role for students who lack such resources. It would especially help those at large high schools where overworked college counselors have little time for individualized essay coaching.

As colleges figure out how to handle the explosion of literate A.I. bots, some students, like Kevin Jacob, a senior at the Gwinnett School, are unsure how to proceed.

Natasha Singer writes about technology, business, and society for The New York Times .

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Technology is a tool that can be used to solve real-world problems. The field of Science, Technology, and Society (STS) "seeks to promote cross-disciplinary integration, civic engagement, and critical thinking" of concepts in the worlds of science and technology ( Harvard University, n.d.). As an aspect of everyday life, technology is ...
Essay on Science in Everyday Life in English
Get the huge list of more than 500 Essay Topics and Ideas. Conclusion of the Essay on Science in Everyday Life. There is no doubt that science has brought about one of the greatest benefits to mankind, in spite of some of its negativities. Furthermore, science certainly has made the most impact in adding comfort to our everyday lives.
How to Write a Science Essay
Continue reading to find some tips to help you write a successful science essay. Science Essay Writing Tips. Once you have chosen a topic and looked at examples, it's time to start writing the science essay. Here are some key tips for a successful essay: Research thoroughly; Make sure you do extensive research before you begin writing your paper.
How to Write a Conclusion for Research Papers (with Examples)
Types of conclusions for research papers. In research papers, the conclusion provides closure to the reader. The type of research paper conclusion you choose depends on the nature of your study, your goals, and your target audience. I provide you with three common types of conclusions: Summarizing Conclusion. A summarizing conclusion is the ...
Essays About Science: Top 12 Examples And Prompts
3. Reflections from a Nobel winner: Scientists need time to make discoveries by Donna Strickland. "We must give scientists the opportunity through funding and time to pursue curiosity-based, long-term, basic-science research. Work that does not have direct ramifications for industry or our economy is also worthy.
How to Conclude an Essay
Step 1: Return to your thesis. To begin your conclusion, signal that the essay is coming to an end by returning to your overall argument. Don't just repeat your thesis statement —instead, try to rephrase your argument in a way that shows how it has been developed since the introduction. Example: Returning to the thesis.
Science and Technology: Impact on Human Life Essay
Conclusion. In general, science and traditions are two integral elements of human life. People strive to make their unique contributions to technology and invent the devices that facilitate human activities. At the same time, they never neglect respect for traditions and cultural diversity.
The Science Essay
The science essay uses science to think about the human condition; it uses humanistic thinking to reflect on the possibilities and limits of science and technology. In this class we read and practice writing science essays of varied lengths and purposes. We will read a wide variety of science essays, ranging across disciplines, both to learn more about this genre and to inspire your own writing.
Our top essays by scientists in 2021
Our top essays by scientists in 2021. 20 Dec 2021. 10:50 AM ET. By Katie Langin. Share: Robert Neubecker. When I emailed Phil De Luna in March to ask whether he was OK with titling the essay he'd written for Science " After falling in love, I reimagined my career path—for the better ," I wasn't sure how he'd react to the "love ...
How to successfully write a scientific essay
Essays on science are different from other types of essays on the basis of the freedom they allow. In other types of essays, you can express yourself. But, in scientific essays, there is little to no room to do so. Contrariwise, science essays seek out impartial logicality and accurate knowledge. Also, these essays test your judgment skills and ...
Top 15 Science Essay Examples for Students
Conclusion of Science Essay Example. In conclusion, science plays a vital role in our modern world. It has led to significant advancements in technology, medicine, and our understanding of the natural world. However, with these advancements come ethical considerations that must be carefully considered. It is essential that we continue to use ...
Essay on Science and Technology for Students and Children
500+ Words Essay on Science and Technology. Essay on Science and Technology: Science and technology are important parts of our day to day life. We get up in the morning from the ringing of our alarm clocks and go to bed at night after switching our lights off. All these luxuries that we are able to afford are a resultant of science and technology.
PDF WRITING A SCIENTIFIC ESSAY
To introduce an additional idea in addition, another reason/ aspect/example, furthermore, moreover, besides, also To introduce an opposite idea or contrast
Essay About Science in Everyday Life
The following essays provide a snapshot of the different ways science can be explored in everyday life. Each essay offers its own unique perspective on the role of science in the world around us. Read through these essays and get a feel for the range of possibilities that are available when exploring science in your everyday life. So read on!
Winning Essays
Entangled in a Quantum Future. 1st Place Winner, Yale Scientific Magazine National Essay Competition 2019. Kelvin Kim. Bergen Catholic High School, Oradell, NJ. The rate of discovery in science has accelerated dramatically since the 20th century. This should not be surprising since our knowledge base doubles approximately every 13 months.
Ending the Essay: Conclusions
Finally, some advice on how not to end an essay: Don't simply summarize your essay. A brief summary of your argument may be useful, especially if your essay is long--more than ten pages or so. But shorter essays tend not to require a restatement of your main ideas. Avoid phrases like "in conclusion," "to conclude," "in summary," and "to sum up ...
Essay on Science and Technology for Students: 100, 200, 350 Words
In conclusion, we can confidently say that Science and Technology have led us to achieve an absolutely amazing life. However, it is extremely important to make use of the same in a judicious way so as to ensure its sustenance. Also Read - Essay on Noise Pollution. Essay on Science and Technology in 350 Words
10 Conclusions for Science and Technology
This chapter draws some conclusions about science and technology based on the theoretical and empirical discussions in previous chapters. Both scientific and technological activities involve searching for new knowledge and techniques, but it has been proposed that scientific activities are generally about understanding the world whereas technological activities are generally about controlling ...
Essay on Scientific Discoveries & Inventions
Here are the five qualities a perfect essay should have:-. Focus: All of your writing should come under one single topic. No matter how vast your essay is, it should always revolve around the topic of the essay. Avoid unnecessary details. Development: Every paragraph of your essay should centre the topic of your essay.
Essay on Science in English: Check 200, 300 & 500 Words Essay
These science essays can be used for essay writing, debate, and other related activities at your institution or school. Essay On Science (200 words) Science entails a thorough examination of the behavior of the physical and natural world. Research, experimentation, and observation are used in the study. The scientific disciplines are diverse.
Science
The cruelty of crypto. Selling itself as the new American dream, crypto exposes the vulnerable to fraud and scams, and loads risk onto the poor. Rachel O'Dwyer. More. Science Essays from Aeon. World-leading scientists and science writers explore topics from theories of evolution to theories of consciousness, quantum physics to deep time ...
17 Essay Conclusion Examples (Copy and Paste)
Essay Conclusion Examples. Below is a range of copy-and-paste essay conclusions with gaps for you to fill-in your topic and key arguments. Browse through for one you like (there are 17 for argumentative, expository, compare and contrast, and critical essays). Once you've found one you like, copy it and add-in the key points to make it your own.
A Simple Act of Defiance Can Improve Science for Women
A study published in 2019 found that more than 40 percent of female scientists in the United States leave full-time work in science after their first child. In 2016, men held about 70 percent of ...
Instructions for Writing Reflective Essays
The essay should following standard writing practice, with introduction, subheadings, and conclusion piece, free of grammar and typo mistakes. References are required. For each MLIS learning outcome, the student uses 300-350 words to demonstrate their understanding of the learning outcome, and then uses an appropriate artifact to support their ...
Wonder of Science Essay for Students & Children
500+ Words Essay on Wonder of Science. Wonder of Science Essay: Looking at the age when a man led a life like a savage, we notice how far we have come. Similarly, the evolution of mankind is truly commendable. One of the major driving forces behind this is science. It makes you think about the wonder of science and how it has proven to be such ...
The best new science fiction books of May 2024
The Language of the Night: Essays on writing, science fiction, and fantasy by Ursula K. Le Guin. There are few sci-fi and fantasy writers more brilliant (and revered) than Ursula K. Le Guin.
Should A.I. Write Your College Essays?
And I think. Last August, Barber asked her 12th-grade students to write college essays. Then she held class discussions about ChatGPT, cautioning students that using A.I. chatbots to generate ideas or writing could make their college essays sound too generic. She advised them to focus more on their personal views and voices.

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Essays About Science: Top 12 Examples and Prompts

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4. ​​ The fact of cloning by Cesar Hill

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4. The fact of cloning by Cesar Hill