research project high school science

Biology Research Projects for High School Students: 20 Ideas To Try This Summer

By János Perczel

Co-founder of Polygence, PhD from MIT

16 minute read

Biology and biomedical research are two of the most popular academic disciplines among high schoolers. If you’re someone who’s interested in those fields and you’re looking for research opportunities this summer, you’ve come to the right place! With the study of biology, not only can you gain a better understanding of the natural world, but your research can have practical applications in fields like medicine, agriculture, and environmental science. Whether you’re just starting out in your exploration of biology, have taken a biology class in school, or you’re looking to do some advanced research to submit to your state’s science fair , we have level-appropriate ideas for you!

With a variety of topics like cancer treatment, genetics, neurodegenerative diseases, and marine life, we’ve got you covered. Here is a curated list of 20 different research project ideas to get those creative juices flowing. If you’re hungry for more, head over to our comprehensive Project Ideas database here and browse over 2800 more ideas!  

Research YOUR fave areas of Biology and Medicine

Polygence pairs you with an expert mentor in to create a passion project around biology and medicine. Together, you work to create a high quality research project that is uniquely your own. We also offer options to explore multiple topics, or to showcase your final product!

Human Body Project Ideas

Rate of cognitive decline in different elevations.

Oxygen partial pressure decreases with altitude, challenging blood oxygenation which may affect brain function. If you’ve ever felt some altitude sickness, then this is exactly what’s happening. This is because the atmospheric pressure decreases at higher elevations, leading to a decrease in the partial pressures of the gasses in the air, including oxygen. And of course, oxygen is needed for us to function. What is the effect on brain health/ cognition in sudden increased elevation: say, climbing Mount Everest? Does chronic exposure to high elevations increase the likelihood of dementia? In this project, a meta-analysis of published works examining the effects of altitude on cognition would be conducted.

Idea by mentor Alyssa

Building a Blood Vessel

Use online graphics to illustrate how a blood vessel forms. Blood vessels are structures that carry blood and are responsible for transporting nutrients and oxygen throughout the body. There are three main types of blood vessels: arteries, veins, and capillaries. For this project, complete a literature search to understand what is known about blood vessel growth. Then, utilize this information to generate a graphic with no words to demonstrate how the vasculature (network of blood vessels) forms. The goal of this project is to explain science without using text and therefore make it more available to a larger community.

Idea by mentor Natalie

Examining the bacterial profile of various households

As of late, bacterial microbiomes have been a huge and interesting topic in the field of bacteriology as they play an important role in human health. Bacterial microbiomes are communities of bacteria that live on or outside organisms. They’re found in various parts of the human body, and help us to digest food and regulate our immune system. In this project, you will seek to understand how skin microbiomes can differ between different  individuals of different households. This project will require making different bacterial media that can be made at home selecting for various microorganisms. If you’re new to preparing bacterial media, check out this resource here!

Idea by mentor Hamilton

Regulation of Circadian Clocks

Sleep is known to be governed by two distinct processes: a circadian clock that aligns sleep and wakefulness to the solar day and the sleep homeostat that encodes for sleep debt as a compensatory mechanism against sleep loss. You’ve most likely heard about circadian rhythm and our body’s internal clock, and circadian regulation of sleep is a fundamental process that allows animals to anticipate sleepiness or wakefulness consistently every day. These mechanisms can be regulated in multiple ways: at the gene, protein, gene, and clock neuronal level. In this project, we will focus on 1) how to efficiently digest primary and review articles to compile and condense information, 2) investigate how circadian clocks are regulated at these different genetic levels, and 3) try to effectively summarize the information we've gathered. We can present this information in a variety of ways, and what the final product looks like is up to you.

Idea by mentor Oscar

The Biology of Aging

Aging is the number one risk factor for a variety of diseases including cancer, neurodegenerative disease, and loss of hearing/sight. We are only now beginning to truly understand the process of aging and have even started to uncover ways that we could stop, or potentially reverse, the effects of aging. What are the hallmarks/signs of aging? How do researchers study 'aging'? How does human lifespan and aging compare to the rest of the animal kingdom? Is it possible to stop or reverse the effects of aging? What advancements are being made related to this? We could explore these questions or brainstorm others you might have about the biology of aging.

Idea by mentor Emily

Animals, Plants, and Nature Project Ideas

How genetically engineered mosquitoes are reducing rates of vector-borne diseases such as zika.

Many countries are already releasing millions of genetically engineered mosquitoes into the wild every week. These mosquitoes have been modified to reduce their ability to transmit disease-causing pathogens like dengue fever, Zika, and malaria, and are sent into the wild to mate with disease-carrying mosquitoes. However, this is still controversial as some people are concerned about the unintended consequences on the environment. What could be the potential pros and cons for this? The project will mainly focus on doing meta analysis of articles and watching informative videos to understand how/why genetically engineered mosquitoes can be used to reduce rates of different diseases. Students will have the chance to use critical thinking and do in-depth research on genetic engineering techniques, how scientists determine breeding rates and number of insects released, and epidemiology of different bloodborne diseases.

Idea by mentor Vanessa

Efficacy of Marine Protected Areas

Marine protected areas (MPAs) are areas of ocean or coastal waters that are set aside for the conservation and sustainable use of marine resources. These areas are established by governments, NGOs, or other organizations, and they can take different forms, from fully protected "no-take" zones to areas with regulated fishing or other activities. Marine protected areas have the potential to guide sustainable resource management and protect biodiversity, but have a host of reasons for why they are not currently effective. Explore reasons for why MPAs may not be effective. Then develop a framework for mapping, modeling, and implementing an effective Marine Protected Area.

Bioinspiration: Do animals hold the answers?

Can the toxins produced by frogs help us fight antibiotic resistant bacteria strains? How can understanding how lizards and newts regrow their limbs help us improve wound treatment? Why do tilapia skins help with burns? Discover the role of animals in the development of modern medicine as well as its potential. Are there any ethical concerns with these developments and findings? If so, what are they and do they matter? Share your findings in a research proposal, article, or presentation.

Idea by mentor Cheyenne

How Climate Change Can Affect Future Distributions of Rare Species

Climate change, such as global warming and longer drought, can threaten the existence of some of the rarest plants on earth. It is important to understand how future suitable habitats will change for these rare species so that we can target our conservation efforts in specific areas. In this project, you will identify a rare species that you like (it can be animals, plants, or fungi!), and gather the data online on its current occurrences. Then you will learn how to perform species distribution modeling to map its current and future suitable habitat areas. To get you started on learning species distribution modeling, check out this Youtube resource here. The changes in the amount or location of future suitable habitats can significantly affect the destiny of a rare species. By doing this project, you will not only learn skills in data analyses but also become the best ambassador for this rare species that you love. 

Idea by mentor Yingtong

A Reef’s Best Frenemies

Coral reefs are in global decline. A primary cause of this is "coral bleaching" which results in the white reefs we often see in the news. Coral bleaching is actually the breakdown in the partnership between the coral animal and tiny, symbiotic algae that live within its cells. Corals and algae have a variety of thermal tolerances which are likely decided by genetic and environmental factors. However, despite how important this relationship is, it's currently very poorly understood. This project would review existing literature on the symbiotic partnernship and try to identify factors that predict bleaching and thermal resilience.

Idea by mentor Carly

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Diseases and Treatments Project Ideas

The understanding of a new and upcoming treatment: immunotherapy.

Immunotherapies have been growing in the past few years as alternative treatments for many types of cancer. These treatments work by boosting the patient's immune system to fight the disease, however it is not always effective. There are many types of immunotherapies with various nuances, but they all work to attack specific cells that are causing the disease. For this project, pick one of a few types of immunotherapy and deeply understand the mechanism of action and what is the current effectiveness against the cancer it treats.

Idea by mentor Hannah

Exploring The Cancer Genome Atlas data 

There has been an explosion of publicly available data for cancer. The Cancer Genome Atlas was a research program with the purpose of creating a comprehensive catalog of genomic and molecular information about different types of cancer, with the aim of improving our understanding of the disease and developing new treatments. The dataset has been used to identify new cancer subtypes, develop diagnostic tests, and discover potential targets for new cancer therapies. Explore the implications and impact of The Cancer Genome Atlas data, and why it’s become so important.

Idea by mentor Hersh

Systematic Review and Meta-Analysis of Physiological Benefits of Fasting-induced Autophagy

Autophagy, meaning "self-eating", is a cellular process where damaged or unwanted components are disposed. Autophagy has been linked to various diseased pathologies, including cancer and heart disease. Fasting or specific dietary lifestyles may induce levels of autophagy in the human body. In this project, we will perform and systematic review and meta-analysis of fasting or diet-induced autophagy and its benefits on the body. You will gain skills in 1) searching and reviewing primary literature, 2) computational skills for performing data analysis (R language), and 3) writing your scientific findings.

Idea by mentor Jose 

The Amyloid Hypothesis: Sifting through the controversy

For many years, scientists have thought that amyloid beta was the protein responsible for a patient developing Alzheimer's Disease symptoms. This "Amyloid Hypothesis" is now being questioned in light of current clinical data. Recently, drugs have been developed that reduce amyloid beta in patients. Surprisingly, the drugs worked in reducing amyloid beta, but it did not result in the slowing of disease pathology. Does this mean that the amyloid hypothesis is incorrect? Is amyloid beta less important in the progression of disease then what we once thought? This research project aims to explore the issues with the amyloid hypothesis and to assess where we stand in our understanding of amyloid beta's contribution to Alzheimer’s.

Idea by mentor Patrick

How do vaccines work?

During the COVID pandemic, vaccines have been all over the news! But how do they actually work? What’s the science behind them? Through this project, you will explore how vaccines work and the history of science behind vaccine development. While the final product of the projectwill be up to you, the ultimate goal of this project is for you to be a true public health advocate for vaccines and to be able to communicate why vaccines are so important in a way that the general public can understand.

Idea by mentor Helen

Sleep Disruption Profiles in Various Mouse Models of Alzheimer’s

Alzheimer's disease (AD) has been studied for decades but we are no closer to understanding the mechanisms of the disease. Because of the vast number of researchers studying AD, there are numerous models used to study the disease. All these models have different sleep profiles, phenotypes, disease onsets, sex differences etc. Therefore, in this project we will compile a document based on extensive literature review about the various models there are. We will focus on sleep profiles in these animals with an emphasis on male and female differences. This information is valuable because it is important to know which model is best to use to answer your scientific questions and there is a lot of criticism (by other scientists) that can be brought on by the model chosen so you need to be able to justify your choice. This project will also introduce you to the world of AD research and some of the gaps in knowledge in the field.

Idea by mentor Shenee

Rethinking The Treatment Of Neurodegenerative Diseases

Neurodegenerative diseases affect millions of people worldwide. They are conditions that affect the nervous system, particularly the brain and spinal cord, and examples include Alzheimer’s and Parkinson’s. While billions of dollars have been spent trying to find treatments for the disease, very few drugs and therapies have had a meaningful impact on slowing down disease progression. This is often because by the time someone is diagnosed with a disease, it has progressed too far for a treatment to have a substantial effect. Some recent approaches to treatment have turned to looking for early indications of the disease (termed "biomarkers") that can occur before the onset of symptoms. By diagnosing disease and beginning treatment before symptoms arise, these treatments could have a more profound effect in slowing down the progression of disease. Students could review the recent progress being made on identifying biomarkers for neurodegenerative diseases, and either write a paper or even record a podcast on their findings!

Idea by mentor David

Genetics Project Ideas

Height and genetics: nature or nurture.

How much do your genes determine your height? How much do nutrition and environmental factors play a role? What gene variants are implicated in height differences and what is the role of epigenetics? Epigenetics is the study of heritable changes in gene expression or cellular phenotype that occur without changes to the underlying DNA sequence. These changes can be influenced by diet and lifestyle. We will access and analyze an open dataset on twins to estimate the correlation between monozygotic twins (who have the exact same DNA) and height. You will learn to use R to open a dataset, analyze data with statistical methods such the student’s t-test, and display your data as graphs and charts. Finally, you will learn how to make a research presentation on height and genetics, describe the research methods, and present the data in a compelling and thorough way.

Idea by mentor Adeoluwa

The World of Personalized Medicine

Similar to our fingerprints, our genetic code is also unique to each individual person. Our genetic code is what determines our hair color, height, eye color, skin tone...just about everything! For those that develop diseases such as cancer, their genetic code found inside the malignant cells that comprise a tumor may also be unique to them or to certain groups of people with similar mutations (the drivers of disease). So why is it that we treat each person the same way even though the genetic drivers of that disease may be disparate? The world of Personalized Medicine is new and exciting and looks to circumvent this problem. Personalized Medicine (also known as precision medicine) uses the genetic code of a patients disease to guide treatment options that prove to be highly efficacious. Together, lets write a review on a disease of your choice that could benefit from Personalized Medicine based on current literature and research.

Idea by mentor Somer

General Biology Project Ideas

Teach a biology concept two ways: to your fellow students and to the general public.

One of the best ways to learn is to teach. Choose a biological concept that interests you and prepare a lesson and or demo on it. The format should be a video recording of yourself teaching (a la Khan Academy or a Zoom class), but the other details are up to you. Consider incorporating a demonstration (e.g. how can you use items from your kitchen to illustrate properties of mixtures?) or animation (e.g. to illustrate molecular motion). Also consider how you will check that your students understand the concept(s) and/or skill(s) you have taught them. Prepare and record two versions of your lesson: one intended for your peers and one for the general public. How will the versions differ to reflect these different audiences? You will learn what it's like to teach, gain a much greater understanding of your chosen concept(s)/skill(s), and learn how to communicate science to different audiences.

Idea by mentor Alexa

Once you’ve picked a project idea, check out some of our resources to help you progress with your project! Whether you’re stuck on how to cite sources , how to come up with a great thesis statement , or how to showcase your work once it’s finished , we’ve created blog posts to help you out. If you’re interested in doing one of the biology research projects with the help of an amazing mentor at Polygence, apply now ! If you would like some help with coming up with your own idea, book a complimentary consultation call with our admissions team here ! For more biology and science research information, check out our comprehensive list of research opportunities for high school students .

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62 Best Research Opportunities for High School Students

June 2, 2024

Hands-on laboratory-based research experiences are coveted by just about every STEM-oriented teenager on the planet. Of course, this level of demand renders research opportunities for high school students a valuable and rare commodity. Fortunately, there are a number of reputable summer programs run by universities, government agencies, and private research laboratories that afford young scientists this highly sought-after experience. Research opportunities during the actual school year are more challenging to locate as colleges are, at that time, catering to their own students, and the rigidity of the high school calendar makes participation a further challenge.

What type of research opportunities can a high school student have, anyway?

Research opportunities for high school students can range from introductory to highly advanced. Some programs focus on teaching students the fundamental skills required for research while others place students with a real working research group and allow them to contribute to legitimate experiments and papers. Your level of involvement will depend on the university or organization’s policies, your mentor, your lab team, and the type of research being conducted.

What types of research experiences look best on college applications?

Authentic, laboratory-based research experiences that you get paid for are the hardest types of positions to nail down, primarily because very few of these spots are available. Moreover, such research groups are conducting serious work—consequently, they’re looking for serious, high-achieving students who will positively enhance their dynamic. Additionally, these positions typically require a longer time commitment, with students working full-time (or close to full-time) hours for several months or even years. As such, accepting one of these positions may limit the other types of summer opportunities that you can participate in. Finally, due to safety concerns and restrictions, you will likely need to be at least 16 years old to participate in many types of lab-based research.

On the flip side are research opportunities that you pay to be involved in, with some being more selective than others. Many families wonder if these programs offer legitimate research experience or are simply another way to capitalize off of the college admissions craze, and the answer is that you have to do your homework.

Although some research opportunities offer little in the way of experience, others are truly authentic opportunities to work with a mentor and delve into an area of interest for academic enrichment—no different than any other cost-based summer program. In these cases, the fact that a student prioritized their intellectual curiosity and spent several months seriously pursuing a topic of interest will be an excellent addition to their application. We’ve gone ahead and done the hard work for you—any one of the opportunities listed below is legitimate and worthy of investing your time and resources into.

How do I decide what types of research opportunities to apply for?

If conducting research is important to you, we recommend applying to a mix of highly selective and lesser selective programs to maximize your chances of being accepted to at least one. Beyond selectivity, it’s important to consider additional several factors:

• Time commitment —Some programs may require a multi-week, full-time commitment over the summer. Others may require nights and weekends during the school year.
• Time frame —Some programs are only available in the summer while others run year-round (sometimes for multiple years).
• Cost/stipend —Do you have to pay for the program, or does the program pay you? Research whether the program will be a good fit for your financial situation, including how much it costs and if you’ll receive compensation for your work, either via academic credit or a paycheck. Note that many residential programs are cost-based while commuter programs that only accept local students are more likely to be fully funded and/or offer a stipend.
• Location —Evaluate whether you’d like to attend a local program, are willing to travel to a residential program, or would prefer a virtual option.
• Level of mentor interaction —During some programs, you’ll be closely supported by PhD faculty members, while others may be run by graduate or postdoc students and require students to be more independent.
• Opportunity to publish or enter research competitions —If publishing research or submitting your project/paper to a research competition is important to you, you’ll want to look into whether the program prepares you for that venture.

Our list includes a bevy of summer program choices as well as year-long internships and apprenticeships. We’ve divided the list into three sections: Virtual, Residential/Multi-Location, and Location-Specific.

For each entry, we list the geographic location of the program, the time frame and length of the program, any associated costs or stipends, and the eligibility criteria for participation.

Virtual Research Opportunities for High School Students

Virtual research opportunities for high school students offer ultimate flexibility, in regard to time commitment as well as subject matter.

1) Polygence

• Location : Virtual
• Timeframe : Academic year and/or summer
• Length: 2-6 months
• Cost : $495-$3,695
• Eligibility: No age restrictions

For high school students who want to showcase authentic passion on their college applications, Polygence offers the most personalized and flexible online research program that helps students turn their interests into unique research projects. Accordingly, they pair intellectually curious students with PhD-level mentors to design experiments, build robots, create podcasts, write original screenplays, and publish in peer-reviewed journals in all fields from the humanities to STEM. All 1:1 programs include ten meetings with a mentor in your chosen field as well as a self-selected project topic and outcome, which could include a research paper, a prototype, or a creative piece of work.

A multitude of personalized options are available, including additional brainstorming sessions, time with a specialist who will guide the student through the publishing or research competition process, and academic credit through UCI x GATI. Moreover, Polygence’s Pods program allows students to work with like-minded peers in a group setting.

Sound like a good fit? College Transitions readers can save $50 on their Polygence package.

Research areas available include:

• Computer science, engineering, AI, & game design
• Biology, biotech, chemistry, neuroscience, and physics
• Medicine, surgery, dentistry, and public health
• Business, finance, and economics
• Math, statistics, sports analytics, and quantitative analysis
• Psychology, psychiatry, cognitive science, and social sciences
• Creative writing, history, philosophy, and literature
• Animation, the arts, fashion, photography, and dance

Residential/Multi-Location Research Programs

In the following section, we’ve outlined programs that are residential or offer opportunities in multiple locations, making them more accessible to a wider array of students.

Programs are organized alphabetically by discipline.

Biology Research Opportunities for High School Students

2) university of chicago research in the biological sciences (ribs).

• Location : Chicago, IL
• Timeframe : Summer
• Length: 4 weeks
• Cost : $14,000
• Eligibility: Current sophomores and juniors

In UChicago’s highly selective RIBS program, students practice a range of molecular, microbiological, and cell biological research techniques. The goal? To prepare them to work in a research laboratory. Accordingly, for the first two weeks, students undergo basic training in lab skills and techniques. Then, they spend the final two weeks of the course immersed in an independent research project. At the end of the course, they present the project during a research forum. Moreover, students can expect weekly writing assignments and seminars. To be competitive, students should have a demonstrated interest in science as well as top grades in those classes.

Biomedical Research Programs for High School Students

3) rosetta institute of biomedical research molecular medicine workshops.

• Location : Berkeley; San Diego; Columbia; London; virtual
• Length: 2 weeks
• Cost : $3,580-$4,180 (residential); $2,280-$2,480 (commuter); $430-1,050 (online)
• Eligibility: High school students aged 14-18

Curious about biomedical research but not ready to pursue a full-blown lab internship? Rosetta Institute offers a number of residential and online two-week programs that introduce high schoolers to topics in medicine, drug development, pharmacy, and nursing. For example, current workshops include Medicinal Chemistry, Neurological Bioinformatics, and Molecular Biology of Cancer. All students are taught by PhD-level instructors and complete an original research project.

Chemistry Research Opportunities for High School Students

4) american chemical society — project seed.

• Location : Multiple
• Length: 8-10 weeks
• Cost : Free, and students receive a $4,000 stipend
• Eligibility: All high school students whose families meet annual income requirements, but preferably current sophomores, juniors, or seniors

Having been operational for more than fifty years, Project SEED (Summer Experiences for the Economically Disadvantaged) runs programs at over 350 institutions and has served over 12,000 students. The goal of the program is to empower a diverse cohort of high school students to conduct hands-on research experience in the chemical sciences. Accordingly, all students work full-time on meaningful independent or small group projects, are closely guided by a mentor, and either write a report or do a poster presentation at the end of their fellowship.

Genetics Research Opportunities for High School Students

5) jackson lab summer student program.

• Location : Bar Harbor, ME or Farmington, CT
• Length: 10 weeks
• Cost : Free, and students receive a $6,500 stipend plus funded room, board, and travel
• Eligibility: High school seniors can apply to the Bar Harbor program, while eligible undergrads can apply to either program.

Hoping to design and execute an original independent research project? You’ll be able to do just that through Jackson Lab’s Summer Student Program, which immerses students in one of seven areas: bioinformatics and computational biology, cancer, developmental biology and aging, genomics, immunology and infectious disease, metabolic diseases, and neurobiology and sensory deficits. Moreover, students are closely guided by a mentor and present their research at the end of the summer. Finally, the application process is intense and competitive, requiring two letters of recommendation, a transcript, a resume, evidence of a strong interest in genetics and genomics, and four essay responses.

Pre-Health Research Opportunities for High School Students

6) national institutes of health high school summer internship program.

• Location : Research groups are available at many of NIH’s 27 institutes and centers , including the main campus in Bethesda, MD
• Cost : Free; all students receive a stipend
• Eligibility: High school seniors age 17+

Through their HS-SIP Program, the National Institutes of Health places high school students in full-time research positions within their many active research groups. Subject areas include biomedical, behavioral, and social sciences, and are geared toward students who are interested in pursuing research and healthcare. Moreover, students can take part in Summer Poster Day, where they present their research to the NIH community. They also have access to professional development programs and educational/career advising.

Note that this research opportunity for high school students is extremely competitive; approximately 7% of applicants are ultimately accepted. Finally, if you are under the age of 18 when you participate in the program, you will need to live within 40 miles of the campus that you’d like to intern at.

STEM/Humanities Research Opportunities for High School Students

7) army educational outreach program—high school internships.

• Location : Various
• Timeframe : All Year
• Length: 3 months
• Cost : Free, and all interns receive a stipend
• Eligibility: All current high school students. Some sites may have additional eligibility requirements.

With programs currently available in twenty states, the Army Educational Outreach Program places high school students in university research labs or at a US Army Research Laboratory/Center. Each site has its own technical focus, from biology and materials science to cybersecurity and AI. Regardless of specialty, all interns receive formal mentorship from a professional scientist or engineer, have access to high-tech equipment, and work on relevant research that addresses a current major challenge.

8) Boston University RISE

• Location : Boston, MA
• Length: 6 weeks
• Cost : $5,350 plus room & board
• Eligibility: Current high school juniors

A residential program located on the Boston University campus, RISE offers high school students the opportunity to conduct laboratory research in one of two tracks: Internship or Practicum. Students in the Internship track work full-time on a research project that aligns with their interests, and are mentored by a faculty member, postdoc fellow, or grad student. 15 subject areas are available, including astronomy, mechanical engineering, medical laboratory research, and nutrition. Alternatively, Practicum students work in small groups on structured research related to systems neuroscience and neurobiology.

Research Opportunities for High School Students—Continued

9) michigan state high school honors science, math and engineering program.

• Location : East Lansing, MI
• Length: 7 weeks
• Cost : $4,000

HSHSP is a highly selective, residential program where students can pursue research opportunities in science, engineering, and mathematics. After learning more about the research process, students deeply explore a problem of interest while engaging in an authentic (not “fail-proof”) research experience. Along the way, they’ll work with professionals and peers in their field of interest. Finally, many students have gone on to publish their work or be recognized at prestigious research competitions.

10) MIT Research Science Institute

• Location : Cambridge, MA
• Cost : Free
• Eligibility: High school juniors

With a combined focus on academic coursework and hands-on research, RSI students first take one week of STEM coursework with MIT professors. Here, they’ll learn about current research topics in biology, chemistry, engineering, mathematics, physics, and the humanities. Then, for the remaining five weeks, students “experience the entire research cycle start to finish.” During this time, they participate in an intensive, mentored individual project experience that culminates in a written and oral presentation.

The program looks for students who are exceptionally academically talented. As such, the application process is quite intensive. PSAT Math scores must be over 740 and ACT Math scores must be over 33. In addition, students must write several essays, acquire teacher recommendations, and provide transcripts. Ultimately, only 100 students are accepted.

11) NASA Internship Programs

• Location : Various; there are 15 centers and facilities in the US. Remote opportunities may also be available.
• Timeframe : Available during the fall, spring, and summer
• Length: 10-16 weeks, depending on session
• Cost : Free; the majority of interns receive a stipend, but some are unpaid
• Eligibility: High school students aged 16+

NASA’s Office of STEM Engagement (OSTEM) offers a number of internship opportunities for high school students. Available projects change each year and are location-specific, and not every NASA center will offer internship opportunities every session. That said, current projects span a range of subject areas, including Climate Change in the Hudson Estuary and Characterizing the Urban Land Surface Temperature. During the research internship, students will be closely mentored by a research scientist, engineer, or other professional. Note that you will need to make your own housing arrangements if you are not a local student.

Are you an undergraduate student? Check out NASA Pathways , which can provide a direct transition into full-time employment at NASA.

12) Smith College Summer Science and Engineering Program

• Location : Northampton, MA
• Length: 2-4 weeks
• Cost : $4,745 (2 weeks); $8,082 (4 weeks)
• Eligibility: Female high school students in grades 9-12; some programs have specific prerequisites

Fun fact: Smith was the first women’s college to create a program in engineering science. As such, their summer programs are an excellent place for young women to participate in hands-on, introductory research experiences. Two-week sessions are offered, and students can take one or both. Each session offers six distinct course choices. For example, the first session offers Chemistry of Herbal Medicine, Designing Intelligent Robots, and Novel Bacteriophage Discovery. Second session courses include Where the Body Meets the Mind, Supercontinents, Rocks, and Fossils, and the Art and Science of Microcontrollers. Students spend five days a week in class, attending lectures and conducting experiments & fieldwork. Additionally, the program is team-based, allowing students to learn from each other’s ideas and perspectives.

13) Stony Brook University Garcia Center Research Experience for High School Students

• Location : Stony Brook, NY
• Timeframe : Summer (with possible academic year continuation)
• Cost : $4,000 plus room & board

At the Garcia Center for Polymers at Engineered Interfaces, high school students can design an original research project in polymer science and technology during an intensive seven-week summer program. Uniquely, the research can then be continued during the academic year under the guidance of a faculty mentor. Students should be highly motivated and high-achieving, with at least three upper-level science courses under their belt. Finally, past participants have regularly published their research and won recognition in national competitions.

14) Stony Brook University Simons Summer Research Program

• Cost : Students need to cover transportation costs (if commuting) or room/board (if residential). Room/board is $2,781. Stipends are also awarded at the end of the program.

After being matched with a mentor and research team, students are fully immersed in the research process. Placement availability varies from year to year, but typically about thirty projects are available across over a dozen disciplines. These include biochemistry, computer science, geosciences, and pharmacological sciences, among others. Moreover, some have prerequisites, such as specific AP courses or previous programming experience.

All students participate in weekly faculty research talks, workshops, events, and a culminating poster symposium.

15) Summer Science Program

• Location : Astrophysics: UNC Chapel Hill, University of Colorado, Georgia College & State University, New Mexico State University; Biochemistry: Purdue, Indiana University; Genomics: Georgetown, Purdue, New Mexico State; Synthetic Chemistry : Southwestern Oklahoma State University
• Cost : $8,800 max; all program fees are scaled according to what each family can afford
• Eligibility: Current high school juniors and exceptional sophomores

The Summer Science Program offers four different immersive research programs that take place on different college campuses around the country. These include programs in astrophysics, biochemistry, genomics, and synthetic chemistry. Each program has its own research focus. For example, astrophysics students will dive into Asteroid Orbit Determination while genomics students explore Antibiotic Resistance and Directed Evolution.

Students spend six days a week in class deeply investigating their research topics and learning more about general experimental science. They also take part in guest lectures and other special programming.

16) Texas Tech University Anson L. Clark Scholars Program

• Location : Lubbock, TX
• Cost : Free; all students receive a $750 stipend upon completion of their projects
• Eligibility: High school juniors and seniors aged 17+ by the start of the program

The Clark Scholars Program is one of the only programs on this list with research disciplines in the sciences as well as the humanities. For example, current research areas include everything from nutritional sciences and mechanical engineering to history. Over the course of seven weeks, students work closely with a faculty member to complete a research paper in their discipline. They also participate in weekly seminars, discussions, and field trips.

17) University of California Santa Barbara Research Mentorship Program

• Location : Santa Barbara, CA
• Cost : $11,874 (residential); $4,975 (commuter)
• Eligibility: High school sophomores and juniors

During this intensive program, students work 35-50 hours per week on an interdisciplinary research project of their choice. Nearly thirty research areas are available in both the STEM disciplines and humanities; current topics include biochemistry, computer science, history, music, and anthropology, among others. Over the course of the program, they also take two courses: Introduction to Research and Presentation Techniques. Finally, students occasionally continue their research remotely during the academic year, depending on their mentor’s availability.

18) University of California Santa Barbara Summer Research Academies

• Cost : $8,224 (residential); $2,575 (commuter)
• Eligibility: High school sophomores, juniors, and seniors

Running for four weeks, the UCSB Summer Research Academies allow students to earn up to four credits. While taking a university-level course that teaches fundamental research concepts, students spend the first two weeks of the program developing a research question & framework via hands-on labs. They’ll then spend the final two weeks of the course analyzing their results and building presentations. Overall, they’ll spend about 25-40 hours per week working. Finally, twelve different tracks are available; each involves multiple disciplines. For example, “Bionic Creatures” combines mechanical engineering, materials science, soft robotics, biomanufacturing, and collective motion.

19) University of California Santa Cruz Science Internship Program (SIP)

• Location : Santa Cruz, CA
• Length: 9 weeks (two weeks virtual, seven weeks in-person)
• Cost : $4,750 plus room & board
• Eligibility: High school students aged 14+, although some research groups require students to be 16+

UCSC’s SIP Program offers a wide range of research focus areas, including science and engineering as well as social science, humanities, and art. For example, over 100 projects are currently offered that include everything from “Eating Insects in Silicon Valley: Cultural Gaps Between Food-Tech and Tradition” and “Future Projected Changes in the Distribution and Variability of Ocean Chlorophyll in Climate Simulations.” Before you dive in, you’ll spend two weeks doing online research prep (this part is conducted remotely) followed by seven weeks of in-person, mentored research. Students get to engage in authentic, open-ended projects that fully immerse them in the academic research experience. Moreover, they’ll present their findings at a symposium at the end of the program.

20) University of California Davis Young Scholars Program

• Location : Davis, CA
• Cost : $6,750
• Eligibility: High school sophomores and juniors who will be 16+ by the start of the program

Interested in biological, agricultural, environmental, or natural sciences? If so, UC Davis is a stellar place to explore those interests through research. All students have the opportunity to work on independent, original projects while receiving one-on-one faculty mentorship. Moreover, they each produce a journal-quality paper and symposium presentation. In addition to research, students also participate in a lecture series presented by UC Davis faculty; past topics have included forensic entomology and nutrition, among others. Finally, field trips to educational facilities like the Monterey Bay Aquarium and Bodega Bay Marine Laboratory round out the experience.

21) University of Florida Student Science Training Program

• Location : Gainesville, FL
• Cost : $5,200
• Eligibility: Rising seniors aged 16+

Thinking about a career in science, medicine, math, computer science, or engineering? UF’s Student Science Training Program could be the right fit. For thirty hours per week, you’ll work with a faculty mentor and lab team on university-level, ongoing research. Moreover, you’ll participate in a science lecture series as well as a UF Honors Program seminar class. Over the course of the program, you will write a research paper, present a poster, and give two oral presentations. Finally, social programming is included.

22) University of Iowa Secondary Student Training Program

• Location : Iowa City, IA
• Cost : $7,500

During this intensive and competitive program, students conduct research within small groups that are supported by a University of Iowa faculty member. There are twenty current active research areas, including chemistry, geography, neurology, orthopedics & rehabilitation, and religious studies. You’ll be working on your project approximately seven hours per day, attending classes in the evenings, and participating in structured activities on the weekend. Moreover, all groups will create and present a poster at the culmination of the program.

23) University of Massachusetts Amherst Summer Programs

• Location : Amherst, MA
• Cost : $3,636 (residential); $2,167 (commuter)
• Eligibility: Rising sophomores, juniors, and seniors

UMass Amherst offers two introductory, research-focused opportunities for high school students. These are Antibiotic Resistance: A Global Health Crisis, which allows students to join the Department of Microbiology in researching new antibiotics, and Energy Without Borders, which delves into climate change, infrastructure, and green energy. In both courses, you’ll learn research methods, complete multiple lab experiences, and present a research poster. Finally, students can earn two college credits upon successful completion of the program.

Location-Specific Research Opportunities for High School Students

The following programs are not residential and only offered in a specific location. Many also only accept local students, although some do allow out-of-state students to apply. If that’s the case, you will need to secure your own living accommodations and transportation. Moreover, if you are under the age of 18, you will need to be supervised by a parent or guardian.

Programs are organized alphabetically by state.

24) California Academy of the Sciences—Careers in Science Intern

• Location : San Francisco, CA
• Focus: STEM
• Length: Multi-year (2-3 years)
• Eligibility: 9 th or 10 th grade student enrolled in an SFUSD school with a GPA of 2.5 or higher

25) Cedars Sinai INSPIRE High School

• Location : Los Angeles, CA
• Focus: Pre-Health
• Cost : Free; all students are paid
• Eligibility: High school students age 16+

26) City of Hope Summer Student Academy

• Location : Duarte, CA
• Focus: Biomedicine
• Cost : Free; all students receive a stipend of $4,000

27) Sandia National Laboratories—Internships

• Location : Livermore, CA
• Focus : STEM
• Timeframe : Academic year and summer internships available
• Length: Academic year or 10-12 weeks (summer)
• Cost : Free; all positions are paid

28) Scripps Student Research Internship Program

• Location : La Jolla, CA
• Focus : Translational science/genomics
• Cost : Free; stipends are typically offered

29) UCSF SEP High School Intern Program

• Focus : Biomedical research
• Length: 8 weeks
• Eligibility: High school juniors enrolled in an SFUSD high school, SF charter school, or College Track San Francisco

30) UCSF Summer Student Research Program

• Location : Oakland, CA
• Length: 9 weeks
• Cost : Free; all students are given a stipend between $3,000-$4,300
• Eligibility: High school juniors or seniors, aged 16+

Connecticut

31) jackson lab academic year fellowships.

• Location : Farmington, CT*
• Focus: Genetics
• Timeframe : Academic year
• Length: 1 school year
• Cost : Free; students must be able to receive academic credit for their work
• Eligibility: High school juniors and seniors age 16+ within commuting distance of the lab

*Some fully remote opportunities are available

32) Yale School of Medicine Discovery to Cure High School Internship

• Location : New Haven, CT

33) Yale University Social Robotics Lab High School Internship

• Focus: Robotics and human social behavior
• Eligibility: Rising juniors and seniors aged 16+

34) Argonne National Laboratory — Exemplary Student Research Program

• Location : Lemont, IL
• Focus: Engineering
• Eligibility: Application must be completed by participating teacher

35) Chicago EYES on Cancer

• Focus : Biomedicine
• Timeframe : All year, with two 8-week summer research experiences
• Length: 2 years
• Cost : Free; all students receive $3,100 stipend
• Eligibility: High school sophomore, junior, or senior aged 16+

36) University of Kansas Biotech Research Apprentice Program

• Location : Overland Park, KS
• Focus : Biotech
• Length: Semester

37) Jackson Lab Academic Year Fellowships

• Location : Bar Harbor, ME*

38) National Cancer Institute Werner H. Kirsten Student Internship Program

• Location : Frederick, MD
• Timeframe : Academic year & summer
• Length: 1 year
• Cost : Free; academic credit available during school year, stipend provided in summer
• Eligibility: High school junior age 17+ who attends an eligible school located within a 30-mile radius of campus

39) University of Minnesota Lillehei Heart Institute Summer Research Scholars Program

• Location : Minneapolis, MN
• Focus: Cardiovascular medicine
• Eligibility: High school juniors and seniors age 16+ as well as undergraduate students

40) Coriell Institute for Medical Research

• Location : Camden, NJ
• Eligibility: High school student aged 17+

41) Princeton Laboratory Learning Program

• Location : Princeton, NJ
• Focus : Natural Sciences or Engineering
• Length: 5-6 weeks

42) Princeton Plasma Physics Laboratory High School Internship

• Location : Princeton, NJ*
• Focus : Physics
• Eligibility: High school seniors (program takes place summer after graduation)

*Remote projects may be available.

43) Rutgers Institute for Translational Medicine and Science Summer Research Program (RITMS)

• Location : Rutgers, NJ
• Focus : Translational medicine/science

44) Rutgers Waksman Institute Summer Experience Program

• Location : Piscataway, NJ*
• Focus : Molecular biology/bioinformatics
• Cost : $2,000
• Eligibility: High school students who have completed a high school-level biology course

*Online version of the program is also available

45) Los Alamos National Laboratory High School Internship Program

• Location : Los Alamos, NM
• Length: 11 weeks
• Eligibility: New Mexico high school seniors aged 16+

46) Sandia National Laboratories—Internships

• Location : Albuquerque, NM

47) Baruch College STEM Research Academy

• Location : New York, NY
• Timeframe : Spring/summer
• Cost : Free, but all students receive a stipend of $1,575
• Eligibility: Must be a NYC public high school sophomore junior to apply

48) Burke Neurological Institute NeuroAcademy

• Location : White Plains, NY
• Focus: Neuroscience
• Eligibility: Completion of NYS Regents Living Environment or equivalent Biology class; cumulative GPA of 3.4 or higher

49) City Tech College STEM Research Academy

• Length: Two semesters (January-August)
• Eligibility: NYC public school sophomore or junior

50) Columbia Zuckerman Institute—BRAINYAC Program

• Eligibility: High school sophomores and juniors from select partner programs/schools in Upper Manhattan and the Bronx

51) HOPP Summer Student Program at Memorial Sloan Kettering Cancer Center

• Focus: Biomedical or computational research
• Eligibility: High school students aged 14+

52) University of Rochester Laboratory for Laser Energetics Summer High School Research Program

• Location : Rochester, NY
• Focus: Laser energetics
• Eligibility: Rochester-area high school students who have completed their junior year

53) Cleveland Clinic Lerner Research Institute

• Location : Cleveland, OH
• Timeframe : Varies; depends on lab
• Length: Varies; depends on lab

54) OHSU School of Medicine Partnership for Scientific Inquiry (PSI)

• Location : Portland, OR
• Focus: Biomedical research
• Timeframe : Academic semester + summer
• Length: 16+ weeks
• Eligibility: Oregon-based high school sophomores, juniors, and seniors aged 16+

Pennsylvania

55) fox chase cancer center high school research programs.

• Location : Philadelphia, PA
• Timeframe : During school year
• Length: 2-3 months; depends on program
• Eligibility: Philadelphia-area high school students; students must be 16+ for some programs

56) Penn State College of Medicine Research Internships

• Location : Hershey, PA
• Length: Varies; could be weeks to months depending on lab
• Cost : Paid and unpaid internships available

57) University of Pennsylvania GRASP Lab High School Internships

• Focus: Robotics
• Cost : Free; stipend typically available
• Eligibility: Rising high school senior

58) George Mason University Aspiring Scientists Internship Program (ASSIP)

• Location : Fairfax, VA*
• Eligibility: High school students aged 15+ or 16+, depending on program

*Some fully remote and hybrid opportunities are available, depending on the lab.

59) Jefferson Lab High School Summer Honors Program

• Location : Newport News, VA
• Eligibility: High school students aged 16+ who live within 60 miles of the lab

60) Virginia Tech Fralin Biomedical Research Institute Summer Research Program

• Location : Roanoke, VA
• Focus: Health behaviors research
• Cost : Free; all students receive a stipend of $4,800
• Eligibility: Rising high school junior or senior in the Roanoke Valley

61) Pacific Northwest National Laboratory High School Research Programs

• Location : Richland, WA
• Timeframe : Summer & academic year programs available
• Length: Academic year or 10 weeks (summer)
• Eligibility: High school students aged 16+; some labs may require students to be 18+

62) Seattle Children’s Hospital Research Training Program

• Location : Seattle, WA
• Eligibility: High school sophomores, juniors, or seniors within commuting distance of downtown Seattle

Final Thoughts—Research Opportunities for High School Students

If gaining research experience is important to you, it’s in your best interest to explore a number of different programs, evaluating whether their structure, length, cost, and outcomes are in line with your goals. Finding the right opportunity may take some time, but it will be well worth the effort required.

• Research Programs

Kelsea Conlin

Kelsea holds a BA in English with a concentration in Creative Writing from Tufts University, a graduate certificate in College Counseling from UCLA, and an MA in Teaching Writing from Johns Hopkins University. Her short fiction is forthcoming in Chautauqua .

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70 Best High School Science Fair Projects in Every Subject

Fire up the Bunsen burners!

For even more free science ideas and printables,  head to our science hub!  You’ll find resources in every science subject for middle and high school.

The cool thing about high school science fair projects is that kids are old enough to tackle some pretty amazing concepts. Some science experiments for high school are just advanced versions of simpler projects they did when they were younger, with detailed calculations or fewer instructions. Other projects involve fire, chemicals, or other materials they weren’t old enough to use before.

Note: Many of these projects can be used as classroom labs as well as science fair projects. Feel free to adapt them as needed for your students’ individual projects, or use them as full-class activities every student will enjoy. However you plan to use the projects, just consider variables that you can change up, like materials or other parameters.

To make it easier to find the right high school science fair project idea for you, we’ve rated all the projects by difficulty and the materials needed:

Difficulty:

• Easy: Low or no-prep experiments you can do pretty much anytime
• Medium: These take a little more setup or a longer time to complete
• Advanced: Experiments like these take a fairly big commitment of time or effort
• Basic: Simple items you probably already have around the house
• Medium: Items that you might not already have but are easy to get your hands on
• Advanced: These require specialized or more expensive supplies to complete
• Biology and Life Sciences High School Science Fair Projects

Chemistry High School Science Fair Projects

Physics high school science fair projects, engineering high school stem fair projects, biology and life science high school science fair projects.

Explore the living world with these biology science project ideas, learning more about plants, animals, the environment, and much more.

FEATURED PICK

Ward’s Science Engage Kit : Fighting phyto viruses

Difficulty: Medium / Materials: Easy (Everything is provided for you!)

In this activity, your students will step into the shoes of an R&D intern at an agricultural biotech company. They’ll dig into a new plant crop virus and brainstorm solutions to tackle it!

Ward’s Science Engage Kits are an amazing way to bring more inquiry-based activities into your classroom. The kits come with everything you need to complete hands-on labs with your class. Your students will develop their critical questioning, research, and teamwork skills while working to solve problems that feel real and important.

Extract DNA from an onion

Difficulty: Medium / Materials: Medium

You don’t need a lot of supplies to perform this experiment, but it’s impressive nonetheless. Turn this into a science fair project by trying it with other fruits and vegetables too.

Re-create Mendel’s pea plant experiment

Gregor Mendel’s pea plant experiments were some of the first to explore inherited traits and genetics. Try your own cross-pollination experiments with fast-growing plants like peas or beans.

Make plants move with light

By this age, kids know that many plants move toward sunlight, a process known as phototropism. So high school science fair projects on this topic need to introduce variables into the process, like covering seedling parts with different materials to see the effects.

Test the 5-second rule

We’d all like to know the answer to this one: Is it really safe to eat food you’ve dropped on the floor? Design and conduct an experiment to find out (although we think we might already know the answer).

Find out if color affects taste

Just how interlinked are all our senses? Does the sight of food affect how it tastes? Find out with a fun food science fair project like this one!

See the effects of antibiotics on bacteria

Difficulty: Medium / Materials: Advanced

Bacteria can be divided into two groups: gram-positive and gram-negative. In this experiment, students first determine the two groups, then try the effects of various antibiotics on them. You can get a gram stain kit , bacillus cereus and rhodospirillum rubrum cultures, and antibiotic discs from Home Science Tools.

Learn more: Antibiotics Project

Witness the carbon cycle in action

Experiment with the effects of light on the carbon cycle. Make this science fair project even more interesting by adding some small aquatic animals like snails or fish into the mix.

Learn more: Carbon Cycle

Look for cell mitosis in an onion

Cell mitosis (division) is actually easy to see in action when you look at onion root tips under a microscope. Students will be amazed to see science theory become science reality right before their eyes. Adapt this lab into a high school science fair project by applying the process to other organisms too.

Test the effects of disinfectants

Grow bacteria in a petri dish along with paper disks soaked in various antiseptics and disinfectants. You’ll be able to see which ones effectively inhibit bacteria growth.

Learn more: Effectiveness of Antiseptics and Disinfectants

Pit hydroponics against soil

Growing vegetables without soil (hydroponics) is a popular trend, allowing people to garden just about anywhere.

More Life Sciences and Biology Science Fair Projects for High School

Use these questions and ideas to design your own experiment:

• Explore ways to prevent soil erosion.
• What are the most accurate methods of predicting various weather patterns?
• Try out various fertilization methods to find the best and safest way to increase crop yield.
• What’s the best way to prevent mold growth on food for long-term storage?
• Does exposure to smoke or other air pollutants affect plant growth?
• Compare the chemical and/or bacterial content of various water sources (bottled, tap, spring, well water, etc.).
• Explore ways to clean up after an oil spill on land or water.
• Conduct a wildlife field survey in a given area and compare it to results from previous surveys.
• Find a new use for plastic bottles or bags to keep them out of landfills.
• Devise a way to desalinate seawater and make it safe to drink.

Bunsen burners, beakers and test tubes, and the possibility of (controlled) explosions? No wonder chemistry is such a popular topic for high school science fair projects!

Break apart covalent bonds

Break the covalent bond of H 2 O into H and O with this simple experiment. You only need simple supplies for this one. Turn it into a science fair project by changing up the variables—does the temperature of the water matter? What happens if you try this with other liquids?

Learn more: Covalent Bonds

Measure the calories in various foods

Are the calorie counts on your favorite snacks accurate? Build your own calorimeter and find out! This kit from Home Science Tools has all the supplies you’ll need.

Detect latent fingerprints

Forensic science is engrossing and can lead to important career opportunities too. Explore the chemistry needed to detect latent (invisible) fingerprints, just like they do for crime scenes!

Learn more: Fingerprints Project

Use Alka-Seltzer to explore reaction rate

Difficulty: Easy / Materials: Easy

Tweak this basic concept to create a variety of high school chemistry science fair projects. Change the temperature, surface area, pressure, and more to see how reaction rates change.

Determine whether sports drinks provide more electrolytes than OJ

Are those pricey sports drinks really worth it? Try this experiment to find out. You’ll need some special equipment for this one; buy a complete kit at Home Science Tools .

Turn flames into a rainbow

You’ll need to get your hands on a few different chemicals for this experiment, but the wow factor will make it worth the effort! Make it a science project by seeing if different materials, air temperature, or other factors change the results.

Discover the size of a mole

The mole is a key concept in chemistry, so it’s important to ensure students really understand it. This experiment uses simple materials like salt and chalk to make an abstract concept more concrete. Make it a project by applying the same procedure to a variety of substances, or determining whether outside variables have an effect on the results.

Learn more: How Big Is a Mole?

Cook up candy to learn mole and molecule calculations

This edible experiment lets students make their own peppermint hard candy while they calculate mass, moles, molecules, and formula weights. Tweak the formulas to create different types of candy and make this into a sweet science fair project!

Learn more: Candy Chemistry

Make soap to understand saponification

Take a closer look at an everyday item: soap! Use oils and other ingredients to make your own soap, learning about esters and saponification. Tinker with the formula to find one that fits a particular set of parameters.

Learn more: Saponification

Uncover the secrets of evaporation

Explore the factors that affect evaporation, then come up with ways to slow them down or speed them up for a simple science fair project.

Learn more: Evaporation

More Chemistry Science Fair Projects for High School

These questions and ideas can spark ideas for a unique experiment:

• Compare the properties of sugar and artificial sweeteners.
• Explore the impact of temperature, concentration, and seeding on crystal growth.
• Test various antacids on the market to find the most effective product.
• What is the optimum temperature for yeast production when baking bread from scratch?
• Compare the vitamin C content of various fruits and vegetables.
• How does temperature affect enzyme-catalyzed reactions?
• Investigate the effects of pH on an acid-base chemical reaction.
• Devise a new natural way to test pH levels (such as cabbage leaves).
• What’s the best way to slow down metal oxidation (the form of rust)?
• How do changes in ingredients and method affect the results of a baking recipe?

When you think of physics science projects for high school, the first thing that comes to mind is probably the classic build-a-bridge. But there are plenty of other ways for teens to get hands-on with physics concepts. Here are some to try.

Remove the air in a DIY vacuum chamber

You can use a vacuum chamber to do lots of cool high school science fair projects, but a ready-made one can be expensive. Try this project to make your own with basic supplies.

Learn more: Vacuum Chamber

Put together a mini Tesla coil

Looking for a simple but showy high school science fair project? Build your own mini Tesla coil and wow the crowd!

Boil water in a paper cup

Logic tells us we shouldn’t set a paper cup over a heat source, right? Yet it’s actually possible to boil water in a paper cup without burning the cup up! Learn about heat transfer and thermal conductivity with this experiment. Go deeper by trying other liquids like honey to see what happens.

Build a better light bulb

Emulate Thomas Edison and build your own simple light bulb. You can turn this into a science fair project by experimenting with different types of materials for filaments.

Measure the speed of light—with your microwave

Grab an egg and head to your microwave for this surprisingly simple experiment. By measuring the distance between cooked portions of egg whites, you’ll be able to calculate the wavelength of the microwaves in your oven and, in turn, the speed of light.

Generate a Lichtenberg figure

See electricity in action when you generate and capture a Lichtenberg figure with polyethylene sheets, wood, or even acrylic and toner. Change the electrical intensity and materials to see what types of patterns you can create.

Learn more: Lichtenberg Figure

Explore the power of friction with sticky-note pads

Difficulty: Medium / Materials: Basic

Ever try to pull a piece of paper out of the middle of a big stack? It’s harder than you’d think! That’s due to the power of friction. In this experiment, students interleave the sheets of two sticky-note pads, then measure how much weight it takes to pull them apart. The results are astonishing!

Build a cloud chamber to prove background radiation

Ready to dip your toe into particle physics? Learn about background radiation and build a cloud chamber to prove the existence of muons.

Measure the effect of temperature on resistance

This is a popular and classic science fair experiment in physics. You’ll need a few specialized supplies, but they’re pretty easy to find.

Learn more: Temperature and Resistance

Launch the best bottle rocket

A basic bottle rocket is pretty easy to build, but it opens the door to lots of different science fair projects. Design a powerful launcher, alter the rocket so it flies higher or farther, or use only recycled materials for your flyer.

More Physics Science Fair Projects for High School

Design your own experiment in response to these questions and prompts.

• Determine the most efficient solar panel design and placement.
• What’s the best way to eliminate friction between two objects?
• Explore the best methods of insulating an object against heat loss.
• What effect does temperature have on batteries when stored for long periods of time?
• Test the effects of magnets or electromagnetic fields on plants or other living organisms.
• Determine the best angle and speed of a bat swing in baseball.
• What’s the best way to soundproof an area or reduce noise produced by an item?
• Explore methods for reducing air resistance in automotive design.
• Use the concepts of torque and rotation to perfect a golf swing.
• Compare the strength and durability of various building materials.

Many schools are changing up their science fairs to STEM fairs to encourage students with an interest in engineering to participate. Many great engineering science fair projects start with a STEM challenge, like those shown here. Use these ideas to spark a full-blown project to build something new and amazing!

Construct a model maglev train

Maglev trains may just be the future of mass transportation. Build a model at home, and explore ways to implement the technology on a wider basis.

Learn more: Maglev Model Train

Design a more efficient wind turbine

Wind energy is renewable, making it a good solution for the fossil fuel problem. For a smart science fair project, experiment to find the most efficient wind turbine design for a given situation.

Re-create Da Vinci’s flying machine

Da Vinci sketched several models of “flying machines” and hoped to soar through the sky. Do some research into his models and try to reconstruct one of your own.

Learn more: Da Vinci Flying Machine

Design a heart-rate monitor

Smartwatches are ubiquitous these days, so pretty much anyone can wear a heart-rate monitor on their wrist. But do they work any better than one you can build yourself? Get the specialized items you need like the Arduino LilyPad Board on Amazon.

Race 3D printed cars

3D printers are a marvel of the modern era, and budding engineers should definitely learn to use them. Use Tinkercad or a similar program to design and print race cars that can support a defined weight, then see which can roll the fastest! (No 3D printer in your STEM lab? Check the local library. Many of them have 3D printers available for patrons to use.)

Learn more: 3D Printed STEM Racers

Grow veggies in a hydroponic garden

Hydroponics is the gardening wave of the future, making it easy to grow plants anywhere with minimal soil required. For a science fair STEM engineering challenge, design and construct your own hydroponic garden capable of growing vegetables to feed a family. This model is just one possible option.

Learn more: Vertical Hydroponic Farm

Grab items with a mechanical claw

Delve into robotics with this engineering project. This kit includes all the materials you need, with complete video instructions. Once you’ve built the basic structure, tinker around with the design to improve its strength, accuracy, or other traits.

Buy it: Hydraulic Claw

Construct a crystal radio

Return to the good old days and build a radio from scratch. This makes a cool science fair project if you experiment with different types of materials for the antenna. It takes some specialized equipment, but fortunately, Home Science Tools has an all-in-one kit for this project.

Learn more: Crystal Radio

Build a burglar alarm

The challenge? Set up a system to alert you when someone has broken into your house or classroom. This can take any form students can dream up, and you can customize this STEM high school science experiment for multiple skill levels. Keep it simple with an alarm that makes a sound that can be heard from a specified distance. Or kick it up a notch and require the alarm system to send a notification to a cell phone, like the project at the link.

Learn more: Intruder Alarm

Walk across a plastic bottle bridge

Balsa wood bridges are OK, but this plastic bottle bridge is really impressive! In fact, students can build all sorts of structures using the concept detailed at the link. It’s the ultimate upcycled STEM challenge!

Learn more: TrussFab Structures

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The Big List of Science Fair Project Ideas, Resources, and More

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5 Free Virtual Research Opportunities For High School Students

Virtual research opportunities for high school students are programs that provide hands-on experience and research projects in various STEM fields, such as mathematics, computer science, computational biology, physics, neuroscience, and engineering. These programs are designed to deepen students’ understanding of STEM and help them develop the skills needed to succeed in their academic and professional careers. 

Participating in these programs can also help high school students expand their knowledge and skills in their areas of interest and work on exciting, unsolved problems with established researchers from top-tier universities. 

Virtual research opportunities are especially useful for high school students who are unable to attend in-person programs due to distance, cost, or other factors. They offer a flexible and accessible way to gain valuable experience and knowledge from the comfort of their own homes. In this article, we will discuss five free virtual research opportunities available for high school students.

1. MIT Primes  

MIT PRIMES is a free, year-long after-school program that provides research projects and guided reading to high school students in the areas of mathematics, computer science, and computational biology. The program is designed for students living within driving distance from Boston, and it offers four sections: PRIMES, PRIMES-USA, Menezes Challenge PRIMES Circle, and Yulia’s Dream.

PRIMES is a research-focused program in which participants work with MIT researchers to solve exciting, unsolved problems. PRIMES-USA is a distance mentoring math research section for high school juniors and sophomores from across the United States. Menezes Challenge PRIMES Circle is a math enrichment section for underrepresented groups living within commuting distance from Boston. Yulia’s Dream is a math enrichment and research program for exceptional high school students from Ukraine.

In addition to these sections, PRIMES runs two collaborative initiatives: MathROOTS, a two-week summer program for high-potential high school students from underrepresented backgrounds or underserved communities, and CrowdMath, a year-long online collaborative research project open to all high school and college students worldwide.

Finally, PRIMES STEP is a year-long math enrichment program for middle school students from Greater Boston.

Overall, MIT PRIMES aims to provide challenging and engaging opportunities for students with a passion for mathematics and science. Through research projects, guided reading, and collaborative initiatives, PRIMES seeks to foster the intellectual growth and development of high school and middle school students, and to inspire them to pursue their interests in these fields.

MIT PRIMES is a prestigious year-long after-school program that offers research projects and guided reading to high school students interested in mathematics, computer science, and computational biology. 

The admissions for the 2023 cycle are closed, and the admission decisions are made by February 1. However, for the 2024 cycle, new problem sets will be posted on October 1, 2023, and applicants will have until November 30, 2023, to solve the relevant problem set(s). 

To apply for MIT PRIMES, you must be a high school student (or a home-schooled student of high school age) living in the Greater Boston area, able to come to MIT weekly from February to May.

To apply, you need to fill out a questionnaire, ask for two or three letters of recommendation, and submit your solutions of the PRIMES problem set. Applicants to the Math section must solve the Math problem set (at least 70%), and applicants to the Computer Science and Computational Biology sections must solve the Computer Science problem set (100%) and the General part of the Math problem set (at least 70%). Admission decisions are based on all components of your application, and there is no application fee.

MIT PRIMES suggests a list of recommended readings as a preparation for entering the program and as a background for further research. By participating in MIT PRIMES, students can gain hands-on experience working on exciting, unsolved problems with MIT researchers and expand their knowledge and skills in these areas.

The Summer Academy for Math and Science (SAMS) is a program that provides opportunities for underrepresented high school students to explore STEM fields. The program is designed to deepen students’ understanding of STEM through traditional classroom instruction, hands-on projects, and sustained engagement with faculty and staff mentors. 

SAMS Scholars are taught by renowned faculty and staff who are deeply committed to their success. They also have the opportunity to collaborate and develop meaningful relationships with peers from across the country. Through SAMS and other outreach initiatives, the program aims to develop a diverse and supportive community of STEM Scholars interested in attending top-tier universities.

The program consists of two parts: Part one is a virtual jumpstart that will occur prior to the start of the residential program. This will focus on skill-building that will be needed for the in-person program. Part two is a 5-week in-person Pre-College program where students will move into the residence halls and attend full days of courses and meetings. The academic portion of the program will conclude with a symposium, and students will move out of the residence halls at the end of the program. 

SAMS is a fully funded, merit-based program, and there is no cost for scholars to participate. To be eligible for the program, students must be at least 16 years old, a U.S. citizen or permanent resident, and a junior in high school at the time of application submission. Scholars are expected to participate fully for the duration of the program and cannot participate in any other programs if selected for SAMS.

3. University of Illinois – High School Summer Research Program

The High School Summer STEM research program invites current 9th-11th graders from Illinois, Indiana, Kentucky, Missouri, Iowa, or Wisconsin to apply for an authentic six-week STEMM research experience at a world-class research university. Participants will be matched with another student, and in some cases, a teacher from their school. 

The program aims to provide hands-on experience in various STEMM fields, including cancer immunology, neuroscience, artificial intelligence, physics, quantum mechanics, bioengineering, and electrical engineering.

Participants will work with established researchers in engineering, computer science, and medicine and attend weekly seminars on topics such as college admission processes and support available, communicating scientifically, and preparing research posters etc. Students will also interact with faculty, post-doctoral researchers, graduate students, undergraduate students, and local high school teachers.

Participants will showcase their research with a research poster and symposium at the end of the program. They should plan for 30-35 hours per week of research and professional development time, with a majority of activities taking place on the University of Illinois campus. 

The program covers some transportation/parking expenses, meals, and a monetary award.

High school teachers play an essential role in the program, with some research projects requiring a teacher to be a co-researcher, and others having a teacher mentor who checks in weekly with the students to discuss their research progress and address any issues or challenges. 

Teachers and students do not need to come from the same school, and interested individuals should apply regardless of whether they can recruit others from their school to apply.

The program also invites research faculty, staff, and graduate student researchers affiliated with The Grainger College of Engineering and the Carle Illinois College of Medicine to propose a high school research project for consideration. The proposals will be mentored by POETS YS, GEnYuS, or SpHERES research teams, which will guide two high school juniors/seniors from limited understanding to completion of a related project of their own and poster presentation explaining their research.

In summary, the High School Summer STEM research program provides high school students with an opportunity to engage in authentic STEMM research and develop professional and college-ready skills. Participants work with established researchers, attend weekly seminars, and showcase their research at the end of the program. 

The program aims to provide hands-on experience and build confidence in students as scientists and engineers.

4. Simons Summer Research Program

The Simons Summer Research Program is a highly selective program that offers high school students the opportunity to conduct hands-on research with Stony Brook faculty mentors. Founded in 1984, the program attracts applicants from all over the country, with Simons Fellows being paired with a faculty mentor, joining a research group or team, and taking responsibility for a project. Students are encouraged to demonstrate independence, creativity, and an aptitude for hands-on work, with a strong interest in science. The program takes place during the summer before the student’s senior year of high school, with students participating in the program from June 26, 2023 to August 11, 2023.

In addition to working on their research project, Simons Fellows attend weekly faculty research talks, special workshops, tours, and events. At the closing poster symposium, students present their research project through a written research abstract and a research poster. Participants receive a stipend award.

The Simons Summer Research Program is supported by the Simons Foundation and is open to US citizens and/or permanent residents who are at least 16 years of age by the start of the program. The program is an opportunity for high school students interested in science to learn valuable techniques, experience life at a major research university, and develop independence, creativity, and an aptitude for hands-on work. The program aims to give students a glimpse into the world of scientific research and inspire them to pursue careers in science.

5. EnergyMag Internship

EnergyMag is offering virtual internships for high school and college students interested in increasing the share of renewable energy in the world and gaining work experience in the energy storage industry. 

The internships aim to provide students with research and analysis skills that will be valuable for their future professional lives. The virtual internship allows students to complete their internship hours virtually, providing flexibility to fit the experience into their busy personal and professional lives. Additionally, virtual interns enjoy the unique rewards of learning from experts regardless of their geographic location and strengthening their information and computer skills. 

The internships are strong resume boosters for employers, graduate college programs, and undergraduate programs. 

EnergyMag offers half-time and quarter-time virtual internships. Half-time internships are available in the summer for two to eight weeks, with interns expected to work approximately 20 hours per week. Quarter-time internships are available all year round for one to nine months, with interns expected to work approximately eight hours per week. The internships are unpaid, and interns work from home while maintaining daily electronic contact with EnergyMag and their mentor. 

Depending on the student’s graduation date, academic record, and experience, interns will be asked to research and analyze a specific company, technology, or market. The intern will be mentored, briefed, supervised, and assisted in producing a draft analysis report. If the report is publishable, EnergyMag will give the intern an internship Letter of Accomplishment. 

The application process for college and high school internships requires an application explaining why EnergyMag should grant an internship, a Skype or voice interview, and a writing sample upon request. College interns are also required to provide their academic record, and high school interns should have at least one honors science or English class with a GPA above 3.25. 

EnergyMag believes that internships provide the opportunity for students to learn on-the-job skills that are not easy to acquire at school but will make a big difference in their future professional success, such as learning how to research a scientific or business issue, approach strangers with positions of authority in a friendly and professional manner, analyze and synthesize information from multiple sources, and communicate professionally in writing.

The blog highlights five virtual research opportunities for high school students, providing hands-on experience and research projects in various STEM fields such as mathematics, computer science, physics, neuroscience, and engineering. These virtual research opportunities aim to provide students with a deeper understanding of STEM and develop the necessary skills to succeed in academic and professional careers. Furthermore, these programs help expand knowledge and work on unsolved problems with established researchers from top-tier universities.

Virtual research opportunities for high school students provide a flexible and accessible way to gain valuable experience and knowledge from the comfort of their own homes. These programs aim to foster the intellectual growth and development of high school and middle school students, and inspire them to pursue their interests in these fields.

CCIR connects students to professors at universities and enables them to take classes with them and get publications which can help them get into better colleges. Learn how CCIR can help you live the life of your dreams and get your career on the right path.  Apply today !

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All Science Fair Projects

1000 science fair projects with complete instructions.

105 Science Fair Projects for High School

Looking for inspiring high school science fair project ideas? You're at the right place, as we compiled this wide range of science projects for 9th grade, 10th grade, 11th grade and 12th grade!

High School Science Fair Project FAQ

What are some easy high school science fair projects.

High school students can have a blast with science by trying out any of these easy science fair projects. These science fair projects teach important scientific concepts while making learning fun and enjoyable.

Growing Pineapples

Osmosis in Eggs

The Effects of Salt and Sugar on Water

Detecting Infrared Light

Solar System Scale Model on the Sidewalk

Temperature's Effect on Seawater

Decomposing Plastic Spoons

Color and Taste

Glowing in the Dark

Hand-Eye Coordination and Age

More details on these science fair projects right above the FAQ!

What is the best high school science project ever?

We highly recommend the Osmosis in Eggs science fair project for high school students. This experiment demonstrates how water moves through a membrane until it's balanced on both sides. By testing how different factors like salt, sugar, and temperature affect osmosis, you can learn more about this fascinating process and its real-life applications.

If you're looking for more high school science projects, check out the high school science fair projects at the top of this page! 

Check out more Best Science Fair Projects →

What are some cool high school grade science fair projects?

Get ready to be amazed by these super cool science projects for high schoolers! With just a few simple things, you can be fascinated by science and have tons of fun with these cool high school science projects!

Create a Hand-Drawn Hologram

Galileo's Inclined Plane Experiment

Are Dogs Color-Blind?

Plant Pavlovian Conditioning

Uncovering Chaos: Precision and Iterative Processes

Jet Lag in Hamsters

What are 5 testable questions for high school?

A testable question is a question that we can answer through a science experiment. To do this, we do a control science experiment, then we change one thing in the experiment to see how it affects what happens. This is how we can discover the answer to our question!

Do detergents affect plant growth?

Can drink and food taste different just by changing its color?

Does the color of light affect photosynthesis?

Does temperature affect seed sprouting?

What makes popcorn pop?

Here are more testable questions along with their science projects →

What are the top 10 science projects for high school?

These are our top 10 science projects for high school, with projects from Biology, Chemistry, Physics and Math. These projects can be used as science fair project ideas or as a fun experiment to explore different areas of science!

Check out the project details right above the FAQ!

Can I do a high school science fair project in a day?

Yes! Doing quick experiments or building models are great options for science fair projects! If you're looking for some ideas to get started on your quick science fair project, we have plenty of topics to choose from.

The Solar System: See it in the correct scale!

Create your own solar system model to scale on the sidewalk and take a walk through space! Solar System Scale Model on the Sidewalk

Make Your Own Hologram!

Make a hologram with nothing more than a compass and some scraps of plexiglass! Create a Hand-Drawn Hologram

Finding the Invisible Light!

Have you ever wondered what kind of light we can't see? Detecting Infrared Light

What are some hands-on ways to find inspiration for my science fair project?

There may be free admission days or free passes to a science museum near you! Check your local library for free museum passes, nearby science museums for free entrance days and your credit card for offers.

Find a science museum near you and prepare to be awed by all that you can learn there! I always learn something new and am inspired whenever I go to a science museum!

How do I start a science fair project?

What should I do after I have a science fair project idea?

How do I make a science fair board?

What is the scientific method?

What is the engineering design process?

Where can I find a science fair competition?

The www Virtual Library: Science Fairs website also has a collection of science fairs from all over the world, as well as national, state, regional, local, and virtual competitions!

30 Best Science Experiments & Projects for High School

Welcome to our round-up of top science fair projects and science experiments tailored specifically for curious high school students.

Science fair is not just about the glitz and glamour of a first-place trophy; it’s about the passion, the inquiry, and the insatiable curiosity that drive every scientist, young and old. Hopefully, our curated list of the best hands-on science fair projects for high school students will ignite that curiosity in you.

Each project on this list offers a unique opportunity to dive deep into scientific inquiry and present findings with both clarity and flair.

Let’s dive in and make learning an unforgettable adventure!

1. Burn Calories

Don’t miss this opportunity to unravel the mysteries of energy transformation and uncover the scientific secrets hidden in the simplest of substances!

Learn more: Science Buddies

2. Extracting DNA from Strawberry

By following a series of simple yet insightful steps, students will witness the magical moment of DNA extraction, fostering a deeper appreciation for the fundamental building blocks of life.

Learn more: Extracting DNA from Strawberry

3. Build a Simple DIY Newton’s Cradle

As students assemble the materials and witness the rhythmic dance of swinging spheres, they will witness the scientific principles they’ve learned in the classroom come to life before their eyes.

4. Make a Monster Dry Ice Bubbles

Unleash your inner mad scientist and learn how to make Monster Dry Ice Bubbles with this high school science experiment!

Get ready to be captivated as you create giant, spooky bubbles that dance and swirl with the mysterious power of dry ice.

Learn more: Wonder How To

5. Soil Erosion Experiment

As stewards of our environment, it’s crucial to comprehend the impact of natural processes like soil erosion.

Through this experiment, students will gain a deeper appreciation for the significance of soil conservation and sustainable land management practices.

Learn more: Life is a Garden

6. Candle Carousel

This experiment combines the wonders of physics with the art of crafting, making it an enriching experience that ignites curiosity and fosters a deeper appreciation for the elegant dance of energy in our world.

7. Find Out if Water Conducts Electricity

In this captivating activity, students will explore the conductive properties of water and unlock the secrets of how electrical currents flow through different substances.

Learn more: Rookie Parenting

8. Roller Coaster Stem Experiment

By experimenting with various designs and track configurations, students will refine their problem-solving skills and gain valuable insights into the practical applications of physics and engineering.

Learn more: STEM Project

9. Lemon Battery

Engaging in this experiment not only teaches the basics of electrical circuits but also sparks curiosity about the natural world and the science behind it.

Learn more: Coffee Cups and Crayons

10. Watering Plants Using Different Liquids

Discover the wonders of plant hydration with the intriguing high school science experiment – “Watering Plants Using Different Liquids.” In this captivating project, students explore how various liquids impact plant growth and health.

Learn more: Lemon Lime Adventures

11. Measure Electrolytes Found in Sports Drinks

By conducting a series of tests and analyses, students will quantify the electrolyte content present in various sports drinks.

12. Relight the Flame Without Directly Touching It

This captivating project challenges students to learn about the intriguing properties of heat transfer and combustion.

By exploring different methods to reignite a candle flame without physical contact, students will uncover the secrets of heat conduction, convection, and radiation.

Learn more: Stevespangler

13. Conduct Fingerprint Analysis

This captivating project immerses students in the intriguing world of crime scene investigations, where they will uncover the uniqueness of fingerprints and their role in forensic science.

14. Separate Water Into Hydrogen And Oxygen Using Electrolysis

This electrifying project allows students to explore electrolysis and the decomposition of water into its elemental components.

Learn more: Navigating by Joy

15. Simple Color Detection Circuit 

This experiment not only introduces fundamental concepts in electronics and circuitry but also opens up endless possibilities for real-life applications, from automated sorting systems to color-sensitive devices.

16. Carbon Sugar Snake

This enchanting project allows students to witness a dazzling display of science as they combine common household ingredients to create a dark, coiling “snake” made of carbon.

Learn more: Kiwi Co

17. Build a Hydraulic Elevator

This captivating project invites students to learn about engineering and fluid mechanics. By constructing a working model of a hydraulic elevator, students will explore the principles of Pascal’s law and the fascinating concept of fluid pressure.

Learn more: Teach Beside Me

18. Brew up Some Root Beer

This enticing project invites students to explore the fascinating world of chemistry and fermentation while creating their own delicious and bubbly concoction.

Learn more: Home School Creations

19. Extracting Bismuth From Pepto-Bismol Tablets

This hands-on experiment not only sheds light on the principles of chemistry and lab techniques but also highlights the real-world applications of bismuth in medicine and various industries.

Learn more: Popscie

20. Solar-Powered Water Desalination

By designing and building a solar-powered water desalination system, students will learn how to harness the sun’s energy to purify saltwater and make it safe for consumption.

21. Applying Hooke’s Law: Make Your Own Spring Scale

By designing and constructing their very own spring scale, students will uncover the principles of Hooke’s Law and the relationship between force and displacement in a spring system.

22. Homemade Hand Warmer

By creating their own hand warmers using safe and easily accessible materials, students will witness the magic of heat generation through chemical processes.

Learn more: Steve Spangler

23. Explore the Concept of Symbiosis Involving Nitrogen-Fixing Bacteria.

By investigating how certain plants form a mutually beneficial bond with these bacteria, students will gain insights into the essential role of nitrogen fixation in the ecosystem.

Learn more: Education.com

24. Center of Gravity Experiment

This fascinating project invites students to explore the concept of the center of gravity and its role in determining stability.

25. Power up Homemade Batteries

This captivating project invites students to learn about electrochemistry and energy generation.

Learn more: 123 Homeschool

26. Film Canister Explosions

Prepare for a blast of excitement and chemistry with the high school science experiment – “Film Canister Explosions!” This project teaches students about chemical reactions and pressure build-up.

27. Investigating Osmosis with Potato Slices

This hands-on experiment not only provides a practical understanding of osmosis but also highlights its relevance in everyday life, from understanding plant hydration to food preservation techniques.

28. Make Homemade Fly Trap

This captivating “Make Homemade Fly Trap!” project invites students to explore the principles of pest control and observe the behavior of flies.

29. Hydroponics: Gardening Without Soil

This exciting project invites students to explore innovative agricultural practices that harness water and nutrient solutions to grow plants.

By setting up their hydroponic system and nurturing plants through this method, students will witness the fascinating dynamics of root development and nutrient absorption.

30. Clothespin Airplane

As they test and modify their creations, students will learn about the principles of lift, thrust, and drag, gaining a deeper understanding of how these forces come together to keep airplanes soaring through the skies.

Learn more: Steamsational

Similar Posts:

• 68 Best Chemistry Experiments: Learn About Chemical Reactions
• 37 Water Science Experiments: Fun & Easy
• Guide on College and University Admissions

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25+ Best Science Research Ideas for High School Students in 2024-2025

If you’re an ambitious high school student looking for opportunities to build your college profile and learn new skills, consider undertaking a research project. You do not need to be sure about what you want to major in, but having a general idea aligned with your interests helps! Conducting research shows demonstrated interest in a subject, aids critical thinking and problem-solving, provides laboratory experience, and helps you gain analytical and communication skills. 

300+ Research Ideas for High School Students in 2024-2025

We have also compiled 300+ research ideas across various subjects for high school students (including the ideas below) in a series of blog posts, which you can find here !

The 300+ research ideas for high school students covered in our blog posts below include both beginner-friendly and advanced research ideas, so there's something for everyone!

Interested in carrying out an independent research project on one of the 300+ ideas covered? Consider the guide to selecting the best research idea below!

What makes a good research idea?

There are a few key components you need to keep in mind when thinking about a research topic:

What is your project trying to achieve? For your research to be relevant, it needs to identify a knowledge gap and be significant. Your research findings should add to existing literature and help future researchers.

It is important to state what will be included in your research explicitly.  Clearly defined boundaries help estimate a realistic timeline and allocate any necessary resources.  

The easiest way to be dedicated throughout your research project is by choosing a topic you are passionate about!  This will make sure you remain motivated throughout, and it will reflect in your work. Do not choose a topic for the sake of it — you will find the project difficult to complete and your disinterest will reflect in the quality of your work.

Feasibility:

You may have a grand idea for your research topic, but can you execute it? It’s important to consider any constraints you may have — time, money, etc. — and choose a topic that can be completed with your given resources.  If you are working independently, choose a topic that isn't resource-intensive. For example, research that requires you use advanced telescopes to examine cosmological patterns may not be feasible if you do not already have access to one. 

What do I do once I have a research idea?

Great job, you have found a topic that interests you, is relevant to the field, and is feasible in scope and resources! Next step, you need to find a mentor who can guide and advise you through the research process.  They could be a working researcher, a college professor, a graduate student, or a Ph.D. candidate.

If you’re looking for a mentor, we’d recommend applying to the Lumiere Research Scholar Program  which connects students with world-class researchers, offers one-on-one mentorship, and guides you through the research and writing process, even helping you get your paper published!

Best Chemistry research ideas for high school students:

Chemistry can be a great field to undertake independent research in — chemical reactions form the basis of life and can give you a deeper understanding of the world.  Moreover, chemistry is directly related to important issues that affect us, like climate change, drug discovery, nanotechnology, and more. Research in these domains can lead to life-changing benefits for society! 

Some topics you can research include:

1. Using green chemistry to achieve sustainability targets in the fields of energy, water remediation, agriculture, and sensing

2. Analyzing different energy storage options and comparing and contrasting different technologies' chemistries, performance, lifetime, cost, geographic and resource constraints, and more

3. Investigating how startups and the private sector’s newest technologies are critical to the transition to a green future and how products are commercialized from lab to market

4. Understanding how material nano-structure can create specific properties and take advantage of "structure-property" understanding to engineer new materials

5. Determining the role small molecules play in imaging, labeling, target identification, inhibiting native protein functions, and facilitating foreign ones, especially in new techniques used to understand disease pathways

6. Investigating how molecules are made in nature, such as the reactions performed by enzymes to make natural products

Suggested by Lumiere PhD mentors at Harvard University, University of California, Berkeley, Yale University, University of Cambridge, Technical University of Munich, Georgia Institute of Technology, Duke University, University of Leeds, Cornell University, and John Hopkins University

Best Biology research ideas for high school students:

Research in biology can contribute to humans’ understanding of living organisms, lead to medical breakthroughs and advancements in healthcare, contribute to cancer research and treatment, deepen our understanding of genetics, improve sustainability by helping develop biofuels and biodegradable materials, and more. 

7. Tumor progression and how cancer cells invade and interact with other cells

8. Cancer immunotherapy: the study of how cancer cells evade the immune system and how we can harness the immune system to battle cancer

9. Researching past and current technologies used in gene editing. Identify challenges and weigh the ethical and social implications of these technologies

10. Identifying technical challenges in mass vaccination campaigns. Review existing data from public health organizations and current scientific literature on new vaccine delivery technologies

11. Analyzing the effects of alcohol and drug addiction on the brain

12. Discovering different theories of learning and memory. You can design and use different  clinical studies here

Suggested by Lumiere Ph.D. mentors at Stanford University, UC Berkeley, Cornell University,  Duke University, and Yale University   

Best Physics research ideas for high school students:

Have space, quantum physics, nuclear science, and other such subjects always fascinated you? If so, a research project in physics is a great way to dig deeper and understand why different phenomena occur. Physics is a broad and interconnected discipline; research in the subject can cover topics like mechanical and electrical engineering, quantum computing, nuclear energy, astrophysical and cosmological phenomena, and computational technologies.

13. The features and limitations of augmented and virtual reality technologies, current industry standards of performance, and solutions to address challenges

14. Cosmological mysteries (like dark energy, inflation, and dark matter) and their hypothesized explanations

15. Physical processes that shape galaxies through cosmic time in the context of extragalactic astronomy and the current issues and frontiers in galaxy evolution

16. Radiation or radiation measurement in applications of nuclear physics (such as reactors, nuclear batteries, and sensors/detectors)

17. The electrical and thermodynamic properties of Boson particles, whose quantum nature is responsible for laser radiation

18. Mathematical derivation of the dynamics of particles from fundamental laws (such as special relativity, general relativity, and quantum mechanics)

19. The theoretical and experimental advances in quantum computing. Explore current high-impact research directions for quantum computing from a hardware or theoretical perspective

20. Nuclear fission or nuclear fusion energy as a possible solution to mitigate climate change

Suggested by Lumiere Ph.D. mentors at Northwestern University, Princeton University, Stanford University, Cornell University, University of Cambridge, Harvard University, University of California, Irvine, and University of Southampton.

Best Marine Biology research ideas for high school students:

Contributing to research in marine biology can be extremely important given the diversity of marine ecosystems, the life they support, and their importance in combating climate change and preventing extreme weather events.  Understanding how oceans work directly relates to water pollution and the quality of seafood, contributes to coastal protection and carbon sequestration (the process of capturing and storing excess carbon dioxide), and helps educate the public on the importance of protecting marine habitats.

 If this interests you, here are some research topics to consider:

21. Examine how corals are responding to climate change, how the change in oceanic temperatures affects their reef-building capabilities, and the knock-on effects

22. Examine how marine conservation and tourism can go coexist. Suggest ways to ensure the sustainable development of coastal economies

23. Study how marine pollution impacts coastal areas, marine biodiversity, and communities’ livelihoods

24. Study how human activity (like pollution, fishing, and habitat destruction) has impacted marine genomes and how other anthropogenic factors have influenced adaptation and genetic diversity in marine organisms

25. Study the effect of plastic pollution on marine life and examine the benefits of adopting more eco-friendly and biodegradable packaging materials. Develop new methods to remove plastic from the ocean

26. Study carbon sequestration. Investigate how coastal ecosystems like mangroves, saltmarshes, seagrasses, etc. can help mitigate C02 emissions

27. Study the effect of plastic pollution on marine life and examine the benefits of adopting more eco-friendly and biodegradable packaging materials. Develop new methods to remove plastic from the ocean

One other option - the Lumiere Research Scholar Program

If you’re serious about conducting independent research, you may want to consider the Lumiere Research Scholar Program , a selective online high school program for students founded by researchers at Harvard and Oxford. Last year, we had over 4000 students apply for 500 spots in the program! You can find the application form here . You can also reach out to us at [email protected] to know more, or to have a chat about possible collaborations!

Also check out the Lumiere Research Inclusion Foundation , a non-profit research program for talented, low-income students. Last year, we had 150 students on full need-based financial aid!

Kieran Lobo is a freelance writer from India, who currently teaches English in Spain.

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31 Research Opportunities + Internships for High Schoolers in 2024

What’s covered:.

• Research Opportunities and Internships for High School Students
• How to Find Research Opportunities in High School
• How Will Doing Research Impact Your College Chances?

Research drives innovation across every field of study, from natural sciences to health to history. Pursuing curiosity can impact industries, drive policy, and help us to better understand the world around us. Without curiosity and research, our society would surely stagnate. 

Contrary to popular belief, however, you don’t have to be a seasoned professional to conduct meaningful research. There are plenty of opportunities for high school students to get a head start on their future careers and contribute to substantial change. Keep reading to learn about 30 great opportunities for students looking for early chances to conduct research! 

Research Opportunities and Internships for High School Students 

1. memorial sloan kettering human oncology and pathogenesis program.

Application Deadline: February 9

Location: New York, NY

Duration: Eight weeks (June 27 – August 22)

Memorial Sloan Kettering (MSK) is one of the most well-known cancer centers in the world. The Human Oncology and Pathogenesis Program (HOPP) at MSK hosts a Summer Student Program for students to conduct independent research projects while participating in extracurricular activities, training, and other opportunities.  

During the eight-week program, participants work with a mentor who will act as a supervisor to help them develop their research skills. Additionally, students have the opportunity to complete an independent research project that aligns with their mentor’s work. All participants will present their projects at a poster session at the end of the summer.

To participate, you must have completed at least 9th grade by June 2024, be at least 14 years old by June 27, have a 3.5 GPA in science subjects, and submit two letters of recommendation. This is a paid opportunity—participants will receive a stipend. 

2. Rockefeller University Summer Science Research Program  

Application Deadline: January 5 

Duration: Seven weeks (June 24 – August 8) 

The Rockefeller University Summer Science Research Program allows high school students to conduct real, innovative research over seven weeks through the renowned Rockefeller University, under the guidance of leading scientists. 

SSRP scholars will be able to design and conduct their own research project as part of a themed research track, which is modeled after a Rockefeller research topic and/or technique, with the help of scientist mentors from the Rockefeller community. Most of the research will be conducted in the RockEDU Laboratory—a 3,000-square-foot research space specifically dedicated to developing biomedical research skills.

Students must be at least 16 years old by the start of the program to participate.  

3. Lumiere Research Scholar Program

Application Deadline : Varies by cohort. Main summer deadlines are March 15, April 15, and May 15

Location:  Remote — you can participate in this program from anywhere in the world!

Duration: Options range from 12 weeks to 1 year

Founded by Harvard & Oxford researchers, the Lumiere Research Scholar Program is a rigorous research program tailored for high school students. The program pairs high-school students with PhD mentors to work 1-on-1 on an independent research project . At the end of the 12-week program, you’ll have written an independent research paper! You can choose research topics from subjects such as medicine, computer science, psychology, physics, economics, data science, business, engineering, biology, and international relations.

This program is designed to accommodate your schedule—you can participate in the summer, fall, winter, or spring, and the program is also conducted fully remotely. While you must be currently enrolled in high school and demonstrate high academic achievement (most students have an unweighted GPA of 3.3), no previous knowledge of your field of interest is required. The cost of the program ranges from $2,800 to $8,900, but financial aid is available.

Note that this is a selective program. Last year, over 4000 students applied for 500 spots in the program. You can find more details about the application here .

4. Research Science Institute (RSI)

Application Deadline: December 13 

Location: Cambridge, MA

Duration: Five weeks (June 23 – August 3) 

The prestigious RSI, which takes place at Massachusetts Institute of Technology (MIT) annually, brings together 100 of the world’s top high school students. The free program blends on-campus coursework with off-campus science and technology research. 

Participants complete individual research projects while receiving mentorship from experienced scientists and researchers, and present their findings through oral and written reports in a conference-style setting at the end of the program. 

5. NYU Tandon – Applied Research Innovations in Science and Engineering (ARISE)

Application Deadline: March 6

Duration: 10  weeks (June 3 – August 9)

Open to New York City high school students who will complete 10th or 11th grade in June 2024, the ARISE program provides access to college-level workshops and lab research across fields like bio, molecular, and chemical engineering, robotics, computer science, and AI.

Over the course of 10 weeks—four virtual and six in person—participants will receive guidance from graduate or postdoctoral students at the NYU Tandon School of Engineering. 

6. Simons Summer Research Program

Application Deadline: February 7

Location: Stony Brook, NY

Duration: Five weeks (July 1 – August 9) 

During Stony Brook ’s Simons Summer Research Program, high school students conduct hands-on research in areas like science, math, and engineering while working with faculty mentors. Simons Fellows have the opportunity to join real research teams and learn about laboratory equipment and techniques. They also attend weekly faculty research talks and participate in special workshops, tours, and events. 

At the closing poster symposium, students will receive a stipend for their participation. To apply, you must be at least 16 years old by the start of the program and currently be in your junior year. 

7. SPARK Summer Mentorship Program

Application Deadline: N/A

Location: Greater Seattle area

Duration: 8-10 weeks 

SPARK is a summer mentorship program that pairs high-achieving and highly motivated high schoolers with industry experts, university professors, and mentors to conduct research on customers and financial markets. The program is only open to U.S. citizens and permanent residents.  

8. MDI Biological Laboratory – Biomedical Bootcamp 2024

Application Deadline: March 18 

Location: Bar Harbor, ME

Duration: One week (July 15 – 19) 

In this bootcamp, students will receive a hands-on introduction to biomedical research at MDI Biological Laboratory. Participants will learn essential scientific skills such as experimental design and hypothesis testing, cutting-edge laboratory techniques, data analysis, bioinformatics, and scientific communication. 

During the program, scientists and bioentrepreneurs at the lab will help participants explore scientific ethics at large, as well as career paths in biomedicine, research, and entrepreneurship in Maine and beyond.

Participants must be at least 16 years old by the start of the program and must be entering their junior or senior year in September 2024, or graduating in June 2024. 

9. Boston University – Research in Science & Engineering (RISE) Internship  

Application Deadline: February 14  

Location: Boston, MA

Duration: Six weeks (June 30 – August 9)  

RISE is a six-week program for rising seniors with an interest in pursuing a major and/or career in STEM. There are a multitude of tracks available, in areas such as astronomy, biology, chemistry, computer science, environmental science, and neuroscience. In each track, students conduct research under the mentorship of Boston University faculty, postdoctoral fellows, or graduate students. They will also attend weekly workshops with their peers. 

10. The Wistar Institute – High School Program in Biomedical Research

Application Deadline: March 31 

Location: Philadelphia, PA

Duration: Four weeks (July 15 – August 8) 

A leading biomedical research organization, The Wistar Institute is an ideal setting for students to learn research skills. Participants will complete their own research project while being trained in a principal investigator’s laboratory. They’ll also attend seminars, receive mentorship, and deliver a final presentation about their work.

Students are expected to participate Monday through Thursday from 9:00 am to 4:00 pm. Absences of more than two consecutive days cannot be accommodated. Students will receive a stipend of $1,000 upon completion of the program, to compensate for commuting costs or other personal expenses accrued during the program. 

11. California Academy of Sciences – Careers in Science (CiS) Intern Program

Application Deadline: April 1, 2024

Location: San Francisco, CA

Duration: Multi-year, year-round participation (after school and on weekends)

This long term program gives San Francisco students from communities that are underrepresented in STEM the opportunity to learn about the world of science and sustainability. Students receive mentorship, develop career skills, and more—all while getting paid for their work. Students also attend workshops and conferences throughout the course of the program. 

12. NASA OSTEM Internship

Application Deadline: February 2

Location: Varies

Duration: Varies

NASA offers a variety of internships for high school students across its numerous campuses. Interns gain real-world work experience by working side by side with research scientists and engineers, which will strengthen their resume and help prepare them for their eventual careers. All participants must be at least 16 years old and enrolled in high school full time.

13. New-York Historical Society Student Historian Internship Program

Application Deadline: April 7

Duration: July 9 – August 15

Not all research is conducted in STEM subjects! Developed for students interested in history, the New-York Historical Society’s Student Historian Program gives participants the opportunity to conduct research on a history topic—2024’s theme is Our Composite Nation: Frederick Douglass’ America . During the program, participants will work with historian mentors, visit history archives around New York City, lead gallery tours, and develop their historical thinking, communication, and digital media skills.

Applicants must be entering grades 10, 11, or 12, and live in the New York City metro area. This opportunity is unpaid for most participants, but some interns with demonstrated financial need can potentially receive a stipend.

14. Adler Planetarium Summer High School Internship  

Application Deadline: March 1

Location: Chicago, IL

Duration: Six weeks (July 8 – August 14)

During this summer internship program, students will learn about the Adler Planetarium and the career opportunities within it and planetariums and museums in general, in areas ranging from Visitor Experience and Learning to Research. Students will also get the chance to see how research gets translated into a museum experience. 

15. Zuckerman Institute Brain Research Apprenticeships in New York at Columbia University (BRAINYAC)

Application Deadline: TBA for 2025 program

Duration: Eight weeks  

BRAINYAC participants receive the rare opportunity to work on research in a lab at Columbia University , one of the most prestigious institutions in the world, as high school students, which results in a stronger, more comprehensive understanding of how scientific discovery happens. They connect with real scientists, acquire essential research and laboratory skills, and learn about advances in neuroscience research. 

In order to apply, you must be in 10th or 11th grade and must be nominated by one of the program’s partners—S-PREP, Lang Youth Medical, Double Discovery Center, Columbia Secondary School, or BioBus.  

16. Brookfield Zoo King Conservation Science Scholars Program

Application Deadline: Rolling admission 

Location: Brookfield, IL

Duration: N/A

Interactive workshops, fun activities, research, and community-based projects are at the core of this exciting internship. It’s an excellent opportunity for students who love animals and also want to gain research skills in the domains of zoology, environmental science, and conservation. 

As a King Scholar, you’ll learn about different topics through Foundation Courses, such as Diversity Awareness and Introduction to Conservation, all while networking with others and preparing for college and an eventual career in a related field. After one year of participation, you’ll be invited to apply for scholarships and paid positions at the zoo. 

17. The Science Research Mentoring Program (SRMP) at the American Museum of Natural History  

Application Deadline: March 8

Duration: One year (August to June) 

The American Museum of Natural History is one of the most iconic and fascinating places in New York City. Its Science Research Mentoring Program is an amazing opportunity for NYC high school students to conduct a yearlong research project with Museum scientists. 

Students in SRMP get paid to learn how scientific research is conducted. Depending on their topic of study, students can learn a variety of different research skills, like working with DNA in the lab, analyzing data from space-based telescopes, reading scientific articles, and learning to code and analyze data in Python, R, and other programming languages. 

18. Anson L. Clark Scholars Program

Application Deadline:   February 15

Location: Lubbock, TX

Duration: Seven weeks (June 16 – August 1) 

Through the Anson L. Clark Scholar Program, an intensive seven-week summer research program for twelve highly qualified high school juniors and seniors, students will gain hands-on experience with practical research alongside experienced and knowledgeable faculty at Texas Tech University .

Students can choose to participate in research in one field from a broad variety of options, including cell and molecular biology, chemistry, computer science, economics, engineering, history, and more! 

To apply, students must complete an online application that includes short essays, high school transcripts, test scores (at least a PSAT if no others are available), three recommendations (at least two from teachers), and a list of the student’s top five activities.

19. UChicago Data Science Institute Summer Lab Program  

Application Deadline: January 16 

Duration: Eight weeks (June 10 – August 2)

The Data Science Institute Summer Lab Program is an immersive eight-week paid summer research program at the University of Chicago . During the program, high school and undergraduate students are paired with a data science mentor, whose expertise could be in computer science, data science, social science, climate and energy policy, public policy, materials science, biomedical research, or another related field.

Participants will hone their research methodology, research practice, and teamwork skills. No prior research experience is required to apply. All participants will receive access to applied data science research, which they will use to craft a research project. The project findings will be presented in a video that will be shown at an end-of-summer symposium.

20. UT Austin College of Natural Sciences High School Research Academy

Application Deadline: March 24

Location: Austin, TX

Duration: Five weeks (June 10 – July 17) 

Through UT Austin ’s HSRA, high school students participate in interdisciplinary research projects being conducted by active College of Natural Sciences laboratories in fields such as biochemistry, biology, environmental science, genetics, neuroscience, genome engineering, data analytics, ecology, and more. 

There is a scholarship fund for underserved groups, so some stipends and free tuition scholarships may be available to students with demonstrated financial need. 

21. Max Planck Florida Institute for Neuroscience – Summer Research Internship

Location: Jupiter, FL

Duration: Six weeks (June 17 – July 26) 

The MPFI Summer Research Internship offers rising juniors and seniors an immersive laboratory experience where they can learn from seasoned researchers. The program is designed specifically for students with an interest in brain structure, function and development, and the advanced imaging techniques and technologies used in neuroscience. 

Program participants will participate in research projects alongside MPFI scientists, prepare a written scientific abstract based on their research project, and deliver a short presentation at the end of the summer. Research tracks include neuroscience, scientific computer programming, and mechanical engineering as it relates to neuroscience.

Applicants must be entering their junior or senior years in a Palm Beach or Martin County high school, be residents of one of those two counties, and be at least 16 by the beginning of the internship. Interns will be paid at a rate of $12.50 per hour.

22. Lincoln Park Zoo Malott Family Zoo Intern Program

Application Deadline: March 11 

Duration: Seven weeks (June 24 – August 9) 

During this paid seven-week program, high school students learn how to educate others about animal and conservation sciences while crafting digital messages to engage audiences. The program culminates in a final project. Throughout the internship, students meet with researchers and the Animal Care staff to explore careers in the animal science and conservation fields. 

Applicants must be Chicago residents between the ages of 15-18, and must be entering grades 10-12 or their freshman year of college by the start of the internship.

23. The Scripps Research High School Internship Program  

Application Deadline: April 19

Location: La Jolla, CA

Duration: Seven weeks  

The Scripps Research Institute’s La Jolla, California headquarters is proud to offer a seven-week hands-on research experience for San Diego County high schoolers. The program is specially designed to expose students to careers in the biological and chemical sciences, to provide hands-on laboratory experience, and to motivate and prepare students for continuing education in STEM. 

Because Scripps is committed to increasing the number of students from underrepresented communities in STEM college programs, a special emphasis is placed on identifying and recruiting students who are from groups that are historically underrepresented in the sciences. All students will receive a $4,760 stipend.

24. QuarkNet Summer Research Program  

Application Deadline: January 31

Location: DuPage County, IL

Duration: Seven weeks (June 17 – August 2) 

High school sophomores, juniors, and seniors with a strong interest in STEM have a unique opportunity to work with scientists on research projects during this paid seven-week program at the prestigious Fermilab, located just outside of Chicago near Batavia, IL.

Interns are encouraged to indicate areas in which they have a particular interest, although research projects vary yearly based on the work ongoing at the lab. Broadly speaking, Fermilab’s focus is on particle physics.

Required application materials include a questionnaire, a letter of recommendation, and an essay. To apply, students must have U.S. citizenship or permanent resident status and must provide evidence of identity and eligibility to work in the United States. Participants will be paid at a rate of $17.20 per hour.

25. RISE Environmentor Internship

Location: Far Rockaway, NY

Duration: Six weeks (July 1 – August 15)

The Environmentor Internship offers a great opportunity for 9th through 11th graders who live or attend school near the Rockaway Peninsula to gain firsthand research experience. Participants are mentored by scientists from local universities and research institutions as they work on projects focused on the Rockaway shoreline. Past research topics have included sea turtle strandings, octopus behavior, mussel denitrification, and dolphin fin morphology.

Students will also take part in water safety courses, receive CPR training, and explore on-water activities like kayaking and surfing. Students receive up to a $1,200 stipend, as well as community service hours for their participation in the program.

26. Stanford Institutes of Medicine Summer Research Program (SIMR)

Application Deadline: February 24

Location: Stanford, CA

Duration: Eight weeks (June 10 – August 1)

Students in this summer program are given the chance to perform research on a medically oriented project and work side by side with Stanford University students, researchers, and faculty. Students can choose from eight areas of research, including topics like immunology, cancer biology, and bioinformatics, which are all designed to increase their interest in the biological sciences and provide a deeper understanding of how scientific research is conducted.

The program is open to current high school juniors and seniors. Students will receive a minimum $500 stipend for their participation in the program.

27. Secondary Student Training Program

Application Deadline: February 16

Location: Iowa City, IA

Duration: June 19 – July 26

High schoolers in grades 10 and 11 can take part in an immersive research experience, which will allow them to explore their interests, enhance their academic skills, and build relationships with their peers during this research-focused summer program.

Participants can choose from a multitude of research areas, ranging from biology to industrial and systems engineering to religious studies. The program culminates with students creating and presenting a poster of their findings. All participants will live on the University of Iowa ‘s campus for the duration of the program, and have access to all of the university’s libraries, study areas, and computer facilities.

Although this program is quite expensive, with a fee of $7,500, financial aid is available to cover up to 95% of the cost.

28. Young Scholars Summer STEMM Research Program

Location: Urbana, IL

Duration: Six weeks (June 20 – August 2)

This program, offered by the prestigious Grainger College of Engineering at University of Illinois at Urbana-Champaign (UIUC) , allows students to gain hands-on research experience in fields such as cancer immunology, AI, physics, quantum mechanics, and electrical engineering. They will also build valuable general life skills by participating in seminars on topics ranging from the college admission process to how to communicate scientifically.

The program is open to rising 10th through 12th graders from Illinois, Indiana, Kentucky, Michigan, Missouri, Iowa, and Wisconsin.

29. Summer Science Program (SSP)

Duration: Varies depending on location and field of focus

Students in the SSP get the chance to work in small teams on a real research project and gain firsthand experience taking and analyzing data. Research opportunities are offered in three fields—astrophysics, biochemistry, and genomics—and are held at a variety of institutions, including University of North Carolina at Chapel Hill , Georgetown University , Purdue University , and New Mexico State University .

The program is open to high school juniors, although a small number of exceptional sophomores have attended the program. You must be between 15-19 to participate, and have completed prerequisite coursework, which varies by field. Financial aid is available for this program.

30. The Jackson Laboratory Summer Student Program

Application Deadline: January 29

Location: Bar Harbor, ME, and Farmington, CT

Duration: 10 weeks (June 1 – August 10)

Students immerse themselves in genetics and genomics research while learning about laboratory discovery and scientific communication, as well as building professional skills. Over the course of the 10-week program, students work with a mentor to develop a research project, implement their plan, analyze their data, and report their results.

This prestigious program is competitive. Just 40 students are selected to participate annually. Participants receive a $6,500 stipend and have their room, board, and travel expenses covered.

31. Fred Hutch Summer High School Internship Program

Application Deadline: March 31

Location: Seattle, WA

Duration: Eight weeks (June 24 – August 16) 

This full-time, paid internship opportunity offers students a chance to immerse themselves in activities at the Fred Hutch Cancer Center, one of the top cancer research centers in the world. The program begins with two weeks of laboratory training and is followed by six weeks of mentored activities, research seminars, workshops focused on college and careers, and social activities.

The program is open to high schoolers entering their senior year with a strong interest in science and high academic achievement, and is specifically aimed at students from backgrounds underrepresented in biomedical science. Interns receive a stipend upon successful completion of the program.

How to Find Research Opportunities in High School 

Define your area of interest .

Before you start looking for opportunities, narrow your area of interest a bit, whether it’s cancer, engineering, computer science, neuroscience, or something else entirely. Also bear in mind that while there may be more STEM opportunities available for high school students, research isn’t limited to these fields—research is also a key component of the social sciences, humanities, and other non-STEM fields. 

While you should be somewhat specific about what you’re hoping to research, don’t narrow your scope so much that it’s impossible to find a valuable opportunity, especially since opportunities for high schoolers in general are more limited than they are for students who have completed at least some college.

Talk to People in Your Immediate Circle 

Teachers, neighbors, your family, parents of friends, friends of your parents—any of these people could know about a research opportunity for you, or at least know someone else who does. Throughout your life, you will find that networking is often the key to finding career opportunities. 

Leveraging your network can help you uncover unique opportunities crowdsourced by the people who know you best—the best opportunities aren’t always hosted by large universities or programs. 

Reach Out to Local Institutions and Laboratories 

In addition to networking with your immediate circle, reach out to local facilities, such as labs, hospitals, clinics, and universities that conduct research. Even if opportunities aren’t publicized, these institutions and laboratories may be willing to make room for you. Remember: when pitching your idea, don’t make it too niche—this will make it more difficult to find a fit and market your skills to labs. 

Cast a Wide Net 

Research opportunities are hard to secure, especially when you’re a young student, so you need to be persistent. You may need to write a hundred emails, but if you put in the effort and cast a wide net, you’ll vastly improve your chances of landing a great opportunity. 

Try not to be too picky, either. Of course, you shouldn’t just accept any offer , especially if it doesn’t appeal to you. But even if the opportunity doesn’t align perfectly with your skills and interests, it can still be a great chance to gain experience and make you a better candidate for future experiences.

How Will Doing Research Impact Your College Chances? 

How much participating in research enhances your college admissions profile depends on many factors, including the scope of the project, the prestige of the program or institution, your individual role and performance, the institution’s connections to or sponsorships by certain colleges, and even how much weight a college places on extracurricular activities in general. 

Generally speaking, there are four tiers of extracurricular activities that colleges think about when reviewing applicants’ activities. Selective, competitive, and prestigious activities are often found in the top tiers, Tier 1 and Tier 2. Tier 1 includes things such as being a highly recruited basketball player or an award-winning national science fair competitor. 

Tier 2 is similar, but is usually reserved for activities that are less exceptional than those in Tier 1. Tiers 3 and 4 are reserved for more common extracurricular achievements, such as holding school leadership positions or being a member of a debate team.

Research usually falls into Tier 2, and some particularly prestigious opportunities could even be Tier 1. That’s because it’s somewhat unusual for high school students to conduct research in professional and collegiate settings, so it’s more likely to impress colleges than other kinds of extracurricular activities.

Do you want to find out the impact research and other extracurricular activities might have on your chances of admission to top colleges and universities? Try using CollegeVine’s free chancing calculator ! 

Our tool evaluates your admissions profile, by accounting for factors like your grades,standardized test scores, and extracurriculars (including research!) to show you how you stack up against other applicants and how likely you are to get into hundreds of different colleges and universities. You’ll also receive tips on how to improve your profile and your odds—all for free.

Disclaimer: This post includes content sponsored by Lumiere Education.

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