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One of the hardest parts of writing a research paper can be just finding a good topic to write about. Fortunately we've done the hard work for you and have compiled a list of 113 interesting research paper topics. They've been organized into ten categories and cover a wide range of subjects so you can easily find the best topic for you.

In addition to the list of good research topics, we've included advice on what makes a good research paper topic and how you can use your topic to start writing a great paper.

What Makes a Good Research Paper Topic?

Not all research paper topics are created equal, and you want to make sure you choose a great topic before you start writing. Below are the three most important factors to consider to make sure you choose the best research paper topics.

#1: It's Something You're Interested In

A paper is always easier to write if you're interested in the topic, and you'll be more motivated to do in-depth research and write a paper that really covers the entire subject. Even if a certain research paper topic is getting a lot of buzz right now or other people seem interested in writing about it, don't feel tempted to make it your topic unless you genuinely have some sort of interest in it as well.

#2: There's Enough Information to Write a Paper

Even if you come up with the absolute best research paper topic and you're so excited to write about it, you won't be able to produce a good paper if there isn't enough research about the topic. This can happen for very specific or specialized topics, as well as topics that are too new to have enough research done on them at the moment. Easy research paper topics will always be topics with enough information to write a full-length paper.

Trying to write a research paper on a topic that doesn't have much research on it is incredibly hard, so before you decide on a topic, do a bit of preliminary searching and make sure you'll have all the information you need to write your paper.

#3: It Fits Your Teacher's Guidelines

Don't get so carried away looking at lists of research paper topics that you forget any requirements or restrictions your teacher may have put on research topic ideas. If you're writing a research paper on a health-related topic, deciding to write about the impact of rap on the music scene probably won't be allowed, but there may be some sort of leeway. For example, if you're really interested in current events but your teacher wants you to write a research paper on a history topic, you may be able to choose a topic that fits both categories, like exploring the relationship between the US and North Korea. No matter what, always get your research paper topic approved by your teacher first before you begin writing.

113 Good Research Paper Topics

Below are 113 good research topics to help you get you started on your paper. We've organized them into ten categories to make it easier to find the type of research paper topics you're looking for.

Arts/Culture

• Discuss the main differences in art from the Italian Renaissance and the Northern Renaissance .
• Analyze the impact a famous artist had on the world.
• How is sexism portrayed in different types of media (music, film, video games, etc.)? Has the amount/type of sexism changed over the years?
• How has the music of slaves brought over from Africa shaped modern American music?
• How has rap music evolved in the past decade?
• How has the portrayal of minorities in the media changed?

Current Events

• What have been the impacts of China's one child policy?
• How have the goals of feminists changed over the decades?
• How has the Trump presidency changed international relations?
• Analyze the history of the relationship between the United States and North Korea.
• What factors contributed to the current decline in the rate of unemployment?
• What have been the impacts of states which have increased their minimum wage?
• How do US immigration laws compare to immigration laws of other countries?
• How have the US's immigration laws changed in the past few years/decades?
• How has the Black Lives Matter movement affected discussions and view about racism in the US?
• What impact has the Affordable Care Act had on healthcare in the US?
• What factors contributed to the UK deciding to leave the EU (Brexit)?
• What factors contributed to China becoming an economic power?
• Discuss the history of Bitcoin or other cryptocurrencies  (some of which tokenize the S&P 500 Index on the blockchain) .
• Do students in schools that eliminate grades do better in college and their careers?
• Do students from wealthier backgrounds score higher on standardized tests?
• Do students who receive free meals at school get higher grades compared to when they weren't receiving a free meal?
• Do students who attend charter schools score higher on standardized tests than students in public schools?
• Do students learn better in same-sex classrooms?
• How does giving each student access to an iPad or laptop affect their studies?
• What are the benefits and drawbacks of the Montessori Method ?
• Do children who attend preschool do better in school later on?
• What was the impact of the No Child Left Behind act?
• How does the US education system compare to education systems in other countries?
• What impact does mandatory physical education classes have on students' health?
• Which methods are most effective at reducing bullying in schools?
• Do homeschoolers who attend college do as well as students who attended traditional schools?
• Does offering tenure increase or decrease quality of teaching?
• How does college debt affect future life choices of students?
• Should graduate students be able to form unions?

• What are different ways to lower gun-related deaths in the US?
• How and why have divorce rates changed over time?
• Is affirmative action still necessary in education and/or the workplace?
• Should physician-assisted suicide be legal?
• How has stem cell research impacted the medical field?
• How can human trafficking be reduced in the United States/world?
• Should people be able to donate organs in exchange for money?
• Which types of juvenile punishment have proven most effective at preventing future crimes?
• Has the increase in US airport security made passengers safer?
• Analyze the immigration policies of certain countries and how they are similar and different from one another.
• Several states have legalized recreational marijuana. What positive and negative impacts have they experienced as a result?
• Do tariffs increase the number of domestic jobs?
• Which prison reforms have proven most effective?
• Should governments be able to censor certain information on the internet?
• Which methods/programs have been most effective at reducing teen pregnancy?
• What are the benefits and drawbacks of the Keto diet?
• How effective are different exercise regimes for losing weight and maintaining weight loss?
• How do the healthcare plans of various countries differ from each other?
• What are the most effective ways to treat depression ?
• What are the pros and cons of genetically modified foods?
• Which methods are most effective for improving memory?
• What can be done to lower healthcare costs in the US?
• What factors contributed to the current opioid crisis?
• Analyze the history and impact of the HIV/AIDS epidemic .
• Are low-carbohydrate or low-fat diets more effective for weight loss?
• How much exercise should the average adult be getting each week?
• Which methods are most effective to get parents to vaccinate their children?
• What are the pros and cons of clean needle programs?
• How does stress affect the body?
• Discuss the history of the conflict between Israel and the Palestinians.
• What were the causes and effects of the Salem Witch Trials?
• Who was responsible for the Iran-Contra situation?
• How has New Orleans and the government's response to natural disasters changed since Hurricane Katrina?
• What events led to the fall of the Roman Empire?
• What were the impacts of British rule in India ?
• Was the atomic bombing of Hiroshima and Nagasaki necessary?
• What were the successes and failures of the women's suffrage movement in the United States?
• What were the causes of the Civil War?
• How did Abraham Lincoln's assassination impact the country and reconstruction after the Civil War?
• Which factors contributed to the colonies winning the American Revolution?
• What caused Hitler's rise to power?
• Discuss how a specific invention impacted history.
• What led to Cleopatra's fall as ruler of Egypt?
• How has Japan changed and evolved over the centuries?
• What were the causes of the Rwandan genocide ?

• Why did Martin Luther decide to split with the Catholic Church?
• Analyze the history and impact of a well-known cult (Jonestown, Manson family, etc.)
• How did the sexual abuse scandal impact how people view the Catholic Church?
• How has the Catholic church's power changed over the past decades/centuries?
• What are the causes behind the rise in atheism/ agnosticism in the United States?
• What were the influences in Siddhartha's life resulted in him becoming the Buddha?
• How has media portrayal of Islam/Muslims changed since September 11th?

Science/Environment

• How has the earth's climate changed in the past few decades?
• How has the use and elimination of DDT affected bird populations in the US?
• Analyze how the number and severity of natural disasters have increased in the past few decades.
• Analyze deforestation rates in a certain area or globally over a period of time.
• How have past oil spills changed regulations and cleanup methods?
• How has the Flint water crisis changed water regulation safety?
• What are the pros and cons of fracking?
• What impact has the Paris Climate Agreement had so far?
• What have NASA's biggest successes and failures been?
• How can we improve access to clean water around the world?
• Does ecotourism actually have a positive impact on the environment?
• Should the US rely on nuclear energy more?
• What can be done to save amphibian species currently at risk of extinction?
• What impact has climate change had on coral reefs?
• How are black holes created?
• Are teens who spend more time on social media more likely to suffer anxiety and/or depression?
• How will the loss of net neutrality affect internet users?
• Analyze the history and progress of self-driving vehicles.
• How has the use of drones changed surveillance and warfare methods?
• Has social media made people more or less connected?
• What progress has currently been made with artificial intelligence ?
• Do smartphones increase or decrease workplace productivity?
• What are the most effective ways to use technology in the classroom?
• How is Google search affecting our intelligence?
• When is the best age for a child to begin owning a smartphone?
• Has frequent texting reduced teen literacy rates?

How to Write a Great Research Paper

Even great research paper topics won't give you a great research paper if you don't hone your topic before and during the writing process. Follow these three tips to turn good research paper topics into great papers.

#1: Figure Out Your Thesis Early

Before you start writing a single word of your paper, you first need to know what your thesis will be. Your thesis is a statement that explains what you intend to prove/show in your paper. Every sentence in your research paper will relate back to your thesis, so you don't want to start writing without it!

As some examples, if you're writing a research paper on if students learn better in same-sex classrooms, your thesis might be "Research has shown that elementary-age students in same-sex classrooms score higher on standardized tests and report feeling more comfortable in the classroom."

If you're writing a paper on the causes of the Civil War, your thesis might be "While the dispute between the North and South over slavery is the most well-known cause of the Civil War, other key causes include differences in the economies of the North and South, states' rights, and territorial expansion."

#2: Back Every Statement Up With Research

Remember, this is a research paper you're writing, so you'll need to use lots of research to make your points. Every statement you give must be backed up with research, properly cited the way your teacher requested. You're allowed to include opinions of your own, but they must also be supported by the research you give.

#3: Do Your Research Before You Begin Writing

You don't want to start writing your research paper and then learn that there isn't enough research to back up the points you're making, or, even worse, that the research contradicts the points you're trying to make!

Get most of your research on your good research topics done before you begin writing. Then use the research you've collected to create a rough outline of what your paper will cover and the key points you're going to make. This will help keep your paper clear and organized, and it'll ensure you have enough research to produce a strong paper.

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Research: Where to Begin

Welcome to the Purdue OWL

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We live in an age overflowing with sources of information. With so many information sources at our fingertips, knowing where to start, sorting through it all and finding what we want can be overwhelming! This handout provides answers to the following research-related questions: Where do I begin? Where should I look for information? What types of sources are available?

Research isn't something that only scientists and professors do. Any time you use sources to investigate claims or reach new conclusions, you are performing research. Research happens in virtually all fields, so it’s vitally important to know how to conduct research and navigate through source material regardless of your professional or academic role.

Choosing and Narrowing Your Research Topic

Before beginning the process of looking for sources, it’s important to choose a research topic that is specific enough to explore in-depth. If your focus is too broad, it will be difficult to find sources that back up what you’re trying to say.

If your instructor gives you the flexibility to choose your own research topic, you might begin by brainstorming  a list of topics that interest you ( click here to visit an OWL page that can help you get started brainstorming or prewriting ). Once you find something that grabs your attention, the next step is to narrow your topic to a manageable scope. Some ways to narrow your focus are by sub-topic, demographic, or time period.

For example, suppose that you want to research cancer treatments. Cancer treatment is a fairly broad topic, so you would be wise to at least consider narrowing your scope. For example, you could focus on a sub-topic of cancer treatment, such as chemotherapy or radiation therapy. However, these are still broad topics, so you might also narrow your topic to a narrower sub-topic or even examine how these topics relate to a specific demographic or time period. In the end, you might decide to research how radiation therapy for women over fifty has changed in the past twenty years. In sum, having a specific idea of what you want to research helps you find a topic that feels more manageable.

Writing Your Research Question

Writing your research topic as a question helps you focus your topic in a clear and concise way. It ensure that your topic is arguable. While not all research papers have to offer an explicit argument, many do.

For the above example, you might phrase your research question like this: "How has radiation therapy changed in the past twenty years for women over fifty?" Of course, phrasing this topic as a question assumes that the research has, in fact, changed. Reading your sources (or, to begin with, at least summaries and abstracts of those sources) will help you formulate a research question that makes sense.

Knowing What Types of Sources You Need

Depending on the type of research you’re doing, you may need to use different types of sources. Research is usually divided into scholarly and popular, and primary and secondary. For more information on specific details about these types of sources, visit our "Where to Begin" page in our "Evaluating Sources" subsection.  This subsection contains additional pages that explore various kinds of sources (like, e.g., internet sources) in more detail.

Asking Productive Questions

Before you begin your research, you should ask yourself questions that help narrow your search parameters.

What kind of information are you looking for?

Different types of research will require different sources. It’s important to know what kinds of sources your research demands. Ask whether you need facts or opinions, news reports, research studies, statistics and data, personal reflections, archival research, etc. Restricting yourself to only the most relevant kinds of sources will make the research process seem less daunting.

Where do you need to look for your research?

Your research topic will also dictate where you find your sources. This extends beyond simply whether you use the internet or a print source. For example, if you are searching for information on a current event, a well-regarded newspaper like the  New York Times  or  Wall Street Journal  could  be a useful source. If you are searching for statistics on some aspect of the U.S. population, then you might want to start with government documents, such as census reports. While much high-level academic research relies mainly on the sorts of academic journal articles and scholarly books that can be found in university libraries, depending the nature of your research project, you may need to look elsewhere.

How much information do you need?

Different research projects require different numbers of sources. For example, if you need to address both sides of a controversial issue, you may need to find more sources than if you were pursuing a non-controversial topic. Be sure to speak with your instructor if you are unclear on how many sources you will be expected to use.

How timely does your research need to be?

Depending on your research topic, the timeliness of your source may or may not matter. For example, if you are looking into recent changes in a specific scientific field, you would want the most up-to-date research. However, if you were researching the War of 1812, you might benefit from finding primary sources written during that time period.

Selecting a Research Topic: Overview

• Refine your topic
• Background information & facts
• Writing help

Here are some resources to refer to when selecting a topic and preparing to write a paper:

• MIT Writing and Communication Center "Providing free professional advice about all types of writing and speaking to all members of the MIT community."
• Search Our Collections Find books about writing. Search by subject for: english language grammar; report writing handbooks; technical writing handbooks
• Blue Book of Grammar and Punctuation Online version of the book that provides examples and tips on grammar, punctuation, capitalization, and other writing rules.
• Select a topic

Choosing an interesting research topic is your first challenge. Here are some tips:

• Choose a topic that you are interested in! The research process is more relevant if you care about your topic.
• If your topic is too broad, you will find too much information and not be able to focus.
• Background reading can help you choose and limit the scope of your topic. 
• Review the guidelines on topic selection outlined in your assignment.  Ask your professor or TA for suggestions.
• Refer to lecture notes and required texts to refresh your knowledge of the course and assignment.
• Talk about research ideas with a friend.  S/he may be able to help focus your topic by discussing issues that didn't occur to you at first.
• WHY did you choose the topic?  What interests you about it?  Do you have an opinion about the issues involved?
• WHO are the information providers on this topic?  Who might publish information about it?  Who is affected by the topic?  Do you know of organizations or institutions affiliated with the topic?
• WHAT are the major questions for this topic?  Is there a debate about the topic?  Are there a range of issues and viewpoints to consider?
• WHERE is your topic important: at the local, national or international level?  Are there specific places affected by the topic?
• WHEN is/was your topic important?  Is it a current event or an historical issue?  Do you want to compare your topic by time periods?

Table of contents

• Broaden your topic
• Information Navigator home
• Sources for facts - general
• Sources for facts - specific subjects

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• SCC Research Guides
• Choosing a Research Topic
• What Makes a Good Research Topic?

Before diving into how to choose a research topic, it is important to think about what are some elements of a good research topic. Of course, this will depend specifically on your research project, but a good research topic will always:

• Relate to the assignment itself. Even when you have a choice for your research topic, you still want to make sure your chosen topic lines up with your class assignment sheet.
• A topic that is too broad will give you too many sources, and it will be hard to focus your research.
• A topic that is too narrow will not give you enough sources, if you can find any sources at all.
• Is debatable. This is important if you are researching a topic that you will have to argue a position for. Good topics have more than one side to the issue and cannot be resolved with a simple yes or no.
• Should be interesting to you! It's more fun to do research on a topic that you are interested in as opposed to one you are not interested in.

Remember, it is common and normal if your research topic changes as you start brainstorming and doing some background research on your topic.

Start with a General Idea

As an example, let's say you were writing a paper about issues relating to college students 

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• Next: 1. Concept Mapping >>
• 1. Concept Mapping
• 2. Background Research
• 3. Narrow Your Topic / Thesis Statements

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Defining the research topic

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Conceptualizing your research topic

Conceptualizing a research topic entails formulating a “defensible and researchable” research question . Conducting a literature search as one of the first steps in a graduate degree is often quite helpful as published peer-reviewed research articles are key to identify knowledge gaps in current literature. Thus, students can design and phrase their research projects to aim to address these research gaps.

Elements of a good research topic

• Interesting: topic represents an area of deep interest for the researcher
• Original : for PhD students, the topic can produce an original contribution to knowledge
• Manageable: research question could be answered within the degree’s recommended time frame (see time limitation ).

At McGill, PhD students are usually expected to have a sufficiently defined research topic by the time of the comprehensive exam .

Seminar presentations can help with topic definition and project planning

Many experienced supervisors and successful PhD students suggest that preparing a research proposal for presentation at a seminar within six months of commencement helps with focusing on the topic. Here are some suggested questions:

• What is it that you want to find answers for?
• Why is it important that this be researched?
• What impact will this research have?
• How will you go about researching this?

Read critically to identify gaps in the field and understand different research methods

Critical reading involves developing an understanding of the knowledge and gaps in the field and being able to critique different research methods, methodologies and epistemologies.

Try concept mapping to visualize and organize links between ideas

Concept mapping: a practical strategy for students and researchers starting a project. It helps to identify areas of importance as well as possibilities for the exploration and analysis of such areas.

Concept maps are helpful as a means of focusing discussion on the topic or research question because they offer a visual approach to creating relationships among concepts . More information about concept mapping can be found at the Institute for Human and Machine Cognition's page on Constructing your first concept map .

• A concept map showing the main components of a concept map , from Novak & Canas (2008) .

If the student makes a concept map, this can form the basis of different discussions between the student and supervisor.

How important is motivation for topic selection?

Most graduate students have a general idea about what they would like to research. Depending on supervisors and disciplines, a student may be "given" a specific research topic or a list of topics to choose from or be asked to generate a topic based on her or his prior knowledge and experience. In either situation, it is a good idea to talk with others – supervisors, students, colleagues, peers, even friends and family – about possible choices, since a research topic is something most students will commit to for the rest of their degree.

Point to reflect on

• What questions, topics or methodologies are you passionate about? Why are you passionate about them (e.g., personal interest or curiosity, potential applications to help others or the environment)?
• Is it possible to answer your desired question within the time frame of a graduate degree? If not, is it possible to choose a portion of this topic to investigate during your graduate studies?
• Do you get more motivated from knowing exactly what you’re going to do, or from the excitement of unexpected discoveries or research trajectories? How can you select a topic and plan your project to better suit your sources of motivation See  Staying motivated  for additional resources

Steps to refine the research focus

• Identify the boundaries of the research areas and the gaps in the field .
• Make a list of possible research ideas within a topic.
• Discuss these ideas with others (e.g., peers, colleagues, professors, mentors). This can provide opportunities for receiving advice based on past experiences, additional ideas, or opportunities for collaboration.
• Reduce the list to two ideas : a first choice and a backup. Having a backup is useful in the event that the first choice is found to be inappropriate for the time restriction, require unattainable resources, or be otherwise not feasible.
• Brainstorm as many ideas, questions, possible problems, and any other thoughts relevant to the first choice.
• Narrow down these ideas into a more precise focus by considering feasibility (e.g., time, requires resources), interest, and significance. The resulting idea should complete the sentence “The purpose of this project is…”
• Refer back to the brainstorming and remove anything not relevant to the purpose statement. Add any new relevant ideas. Use these ideas as well as the purpose statement to create a list of researchable questions . Be sure to define key terms and consider required resources, including the characteristics of the participants if applicable.
• Create a project outline. Consider what information or data will be needed and how it can be obtained.

Adapted from Wisker (2005, p. 83) and Bell & Waters (2014)

Bell, J., & Waters, S. (2014). Doing your research project: A guide for first-time researchers . New York, NY: McGraw-Hill Education.

Novak, J. D., & Cañas, A. J. (2008). The theory underlying concept maps and how to construct and use them. Institute for Human and Machine Cognition . Retrieved from http://cmap.ihmc.us/docs/theory-of-concept-maps

Wisker, G. (2005). The good supervisor: Supervising postgraduate and undergraduate research for doctoral theses and dissertations . Basingstoke: Palgrave Macmillan.

This work is licensed under a Creative Commons Attribution Non-Commercial 4.0 International License . Graduate and Postdoctoral Studies, McGill University .

Department and University Information

Graduate and postdoctoral studies.

What Is Research, and Why Do People Do It?

• Open Access
• First Online: 03 December 2022

Cite this chapter

You have full access to this open access chapter

• James Hiebert 6 ,
• Jinfa Cai 7 ,
• Stephen Hwang 7 ,
• Anne K Morris 6 &
• Charles Hohensee 6  

Part of the book series: Research in Mathematics Education ((RME))

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Abstractspiepr Abs1

Every day people do research as they gather information to learn about something of interest. In the scientific world, however, research means something different than simply gathering information. Scientific research is characterized by its careful planning and observing, by its relentless efforts to understand and explain, and by its commitment to learn from everyone else seriously engaged in research. We call this kind of research scientific inquiry and define it as “formulating, testing, and revising hypotheses.” By “hypotheses” we do not mean the hypotheses you encounter in statistics courses. We mean predictions about what you expect to find and rationales for why you made these predictions. Throughout this and the remaining chapters we make clear that the process of scientific inquiry applies to all kinds of research studies and data, both qualitative and quantitative.

You have full access to this open access chapter,  Download chapter PDF

Part I. What Is Research?

Have you ever studied something carefully because you wanted to know more about it? Maybe you wanted to know more about your grandmother’s life when she was younger so you asked her to tell you stories from her childhood, or maybe you wanted to know more about a fertilizer you were about to use in your garden so you read the ingredients on the package and looked them up online. According to the dictionary definition, you were doing research.

Recall your high school assignments asking you to “research” a topic. The assignment likely included consulting a variety of sources that discussed the topic, perhaps including some “original” sources. Often, the teacher referred to your product as a “research paper.”

Were you conducting research when you interviewed your grandmother or wrote high school papers reviewing a particular topic? Our view is that you were engaged in part of the research process, but only a small part. In this book, we reserve the word “research” for what it means in the scientific world, that is, for scientific research or, more pointedly, for scientific inquiry .

Exercise 1.1

Before you read any further, write a definition of what you think scientific inquiry is. Keep it short—Two to three sentences. You will periodically update this definition as you read this chapter and the remainder of the book.

This book is about scientific inquiry—what it is and how to do it. For starters, scientific inquiry is a process, a particular way of finding out about something that involves a number of phases. Each phase of the process constitutes one aspect of scientific inquiry. You are doing scientific inquiry as you engage in each phase, but you have not done scientific inquiry until you complete the full process. Each phase is necessary but not sufficient.

In this chapter, we set the stage by defining scientific inquiry—describing what it is and what it is not—and by discussing what it is good for and why people do it. The remaining chapters build directly on the ideas presented in this chapter.

A first thing to know is that scientific inquiry is not all or nothing. “Scientificness” is a continuum. Inquiries can be more scientific or less scientific. What makes an inquiry more scientific? You might be surprised there is no universally agreed upon answer to this question. None of the descriptors we know of are sufficient by themselves to define scientific inquiry. But all of them give you a way of thinking about some aspects of the process of scientific inquiry. Each one gives you different insights.

Exercise 1.2

As you read about each descriptor below, think about what would make an inquiry more or less scientific. If you think a descriptor is important, use it to revise your definition of scientific inquiry.

Creating an Image of Scientific Inquiry

We will present three descriptors of scientific inquiry. Each provides a different perspective and emphasizes a different aspect of scientific inquiry. We will draw on all three descriptors to compose our definition of scientific inquiry.

Descriptor 1. Experience Carefully Planned in Advance

Sir Ronald Fisher, often called the father of modern statistical design, once referred to research as “experience carefully planned in advance” (1935, p. 8). He said that humans are always learning from experience, from interacting with the world around them. Usually, this learning is haphazard rather than the result of a deliberate process carried out over an extended period of time. Research, Fisher said, was learning from experience, but experience carefully planned in advance.

This phrase can be fully appreciated by looking at each word. The fact that scientific inquiry is based on experience means that it is based on interacting with the world. These interactions could be thought of as the stuff of scientific inquiry. In addition, it is not just any experience that counts. The experience must be carefully planned . The interactions with the world must be conducted with an explicit, describable purpose, and steps must be taken to make the intended learning as likely as possible. This planning is an integral part of scientific inquiry; it is not just a preparation phase. It is one of the things that distinguishes scientific inquiry from many everyday learning experiences. Finally, these steps must be taken beforehand and the purpose of the inquiry must be articulated in advance of the experience. Clearly, scientific inquiry does not happen by accident, by just stumbling into something. Stumbling into something unexpected and interesting can happen while engaged in scientific inquiry, but learning does not depend on it and serendipity does not make the inquiry scientific.

Descriptor 2. Observing Something and Trying to Explain Why It Is the Way It Is

When we were writing this chapter and googled “scientific inquiry,” the first entry was: “Scientific inquiry refers to the diverse ways in which scientists study the natural world and propose explanations based on the evidence derived from their work.” The emphasis is on studying, or observing, and then explaining . This descriptor takes the image of scientific inquiry beyond carefully planned experience and includes explaining what was experienced.

According to the Merriam-Webster dictionary, “explain” means “(a) to make known, (b) to make plain or understandable, (c) to give the reason or cause of, and (d) to show the logical development or relations of” (Merriam-Webster, n.d. ). We will use all these definitions. Taken together, they suggest that to explain an observation means to understand it by finding reasons (or causes) for why it is as it is. In this sense of scientific inquiry, the following are synonyms: explaining why, understanding why, and reasoning about causes and effects. Our image of scientific inquiry now includes planning, observing, and explaining why.

We need to add a final note about this descriptor. We have phrased it in a way that suggests “observing something” means you are observing something in real time—observing the way things are or the way things are changing. This is often true. But, observing could mean observing data that already have been collected, maybe by someone else making the original observations (e.g., secondary analysis of NAEP data or analysis of existing video recordings of classroom instruction). We will address secondary analyses more fully in Chap. 4 . For now, what is important is that the process requires explaining why the data look like they do.

We must note that for us, the term “data” is not limited to numerical or quantitative data such as test scores. Data can also take many nonquantitative forms, including written survey responses, interview transcripts, journal entries, video recordings of students, teachers, and classrooms, text messages, and so forth.

Exercise 1.3

What are the implications of the statement that just “observing” is not enough to count as scientific inquiry? Does this mean that a detailed description of a phenomenon is not scientific inquiry?

Find sources that define research in education that differ with our position, that say description alone, without explanation, counts as scientific research. Identify the precise points where the opinions differ. What are the best arguments for each of the positions? Which do you prefer? Why?

Descriptor 3. Updating Everyone’s Thinking in Response to More and Better Information

This descriptor focuses on a third aspect of scientific inquiry: updating and advancing the field’s understanding of phenomena that are investigated. This descriptor foregrounds a powerful characteristic of scientific inquiry: the reliability (or trustworthiness) of what is learned and the ultimate inevitability of this learning to advance human understanding of phenomena. Humans might choose not to learn from scientific inquiry, but history suggests that scientific inquiry always has the potential to advance understanding and that, eventually, humans take advantage of these new understandings.

Before exploring these bold claims a bit further, note that this descriptor uses “information” in the same way the previous two descriptors used “experience” and “observations.” These are the stuff of scientific inquiry and we will use them often, sometimes interchangeably. Frequently, we will use the term “data” to stand for all these terms.

An overriding goal of scientific inquiry is for everyone to learn from what one scientist does. Much of this book is about the methods you need to use so others have faith in what you report and can learn the same things you learned. This aspect of scientific inquiry has many implications.

One implication is that scientific inquiry is not a private practice. It is a public practice available for others to see and learn from. Notice how different this is from everyday learning. When you happen to learn something from your everyday experience, often only you gain from the experience. The fact that research is a public practice means it is also a social one. It is best conducted by interacting with others along the way: soliciting feedback at each phase, taking opportunities to present work-in-progress, and benefitting from the advice of others.

A second implication is that you, as the researcher, must be committed to sharing what you are doing and what you are learning in an open and transparent way. This allows all phases of your work to be scrutinized and critiqued. This is what gives your work credibility. The reliability or trustworthiness of your findings depends on your colleagues recognizing that you have used all appropriate methods to maximize the chances that your claims are justified by the data.

A third implication of viewing scientific inquiry as a collective enterprise is the reverse of the second—you must be committed to receiving comments from others. You must treat your colleagues as fair and honest critics even though it might sometimes feel otherwise. You must appreciate their job, which is to remain skeptical while scrutinizing what you have done in considerable detail. To provide the best help to you, they must remain skeptical about your conclusions (when, for example, the data are difficult for them to interpret) until you offer a convincing logical argument based on the information you share. A rather harsh but good-to-remember statement of the role of your friendly critics was voiced by Karl Popper, a well-known twentieth century philosopher of science: “. . . if you are interested in the problem which I tried to solve by my tentative assertion, you may help me by criticizing it as severely as you can” (Popper, 1968, p. 27).

A final implication of this third descriptor is that, as someone engaged in scientific inquiry, you have no choice but to update your thinking when the data support a different conclusion. This applies to your own data as well as to those of others. When data clearly point to a specific claim, even one that is quite different than you expected, you must reconsider your position. If the outcome is replicated multiple times, you need to adjust your thinking accordingly. Scientific inquiry does not let you pick and choose which data to believe; it mandates that everyone update their thinking when the data warrant an update.

Doing Scientific Inquiry

We define scientific inquiry in an operational sense—what does it mean to do scientific inquiry? What kind of process would satisfy all three descriptors: carefully planning an experience in advance; observing and trying to explain what you see; and, contributing to updating everyone’s thinking about an important phenomenon?

We define scientific inquiry as formulating , testing , and revising hypotheses about phenomena of interest.

Of course, we are not the only ones who define it in this way. The definition for the scientific method posted by the editors of Britannica is: “a researcher develops a hypothesis, tests it through various means, and then modifies the hypothesis on the basis of the outcome of the tests and experiments” (Britannica, n.d. ).

Notice how defining scientific inquiry this way satisfies each of the descriptors. “Carefully planning an experience in advance” is exactly what happens when formulating a hypothesis about a phenomenon of interest and thinking about how to test it. “ Observing a phenomenon” occurs when testing a hypothesis, and “ explaining ” what is found is required when revising a hypothesis based on the data. Finally, “updating everyone’s thinking” comes from comparing publicly the original with the revised hypothesis.

Doing scientific inquiry, as we have defined it, underscores the value of accumulating knowledge rather than generating random bits of knowledge. Formulating, testing, and revising hypotheses is an ongoing process, with each revised hypothesis begging for another test, whether by the same researcher or by new researchers. The editors of Britannica signaled this cyclic process by adding the following phrase to their definition of the scientific method: “The modified hypothesis is then retested, further modified, and tested again.” Scientific inquiry creates a process that encourages each study to build on the studies that have gone before. Through collective engagement in this process of building study on top of study, the scientific community works together to update its thinking.

Before exploring more fully the meaning of “formulating, testing, and revising hypotheses,” we need to acknowledge that this is not the only way researchers define research. Some researchers prefer a less formal definition, one that includes more serendipity, less planning, less explanation. You might have come across more open definitions such as “research is finding out about something.” We prefer the tighter hypothesis formulation, testing, and revision definition because we believe it provides a single, coherent map for conducting research that addresses many of the thorny problems educational researchers encounter. We believe it is the most useful orientation toward research and the most helpful to learn as a beginning researcher.

A final clarification of our definition is that it applies equally to qualitative and quantitative research. This is a familiar distinction in education that has generated much discussion. You might think our definition favors quantitative methods over qualitative methods because the language of hypothesis formulation and testing is often associated with quantitative methods. In fact, we do not favor one method over another. In Chap. 4 , we will illustrate how our definition fits research using a range of quantitative and qualitative methods.

Exercise 1.4

Look for ways to extend what the field knows in an area that has already received attention by other researchers. Specifically, you can search for a program of research carried out by more experienced researchers that has some revised hypotheses that remain untested. Identify a revised hypothesis that you might like to test.

Unpacking the Terms Formulating, Testing, and Revising Hypotheses

To get a full sense of the definition of scientific inquiry we will use throughout this book, it is helpful to spend a little time with each of the key terms.

We first want to make clear that we use the term “hypothesis” as it is defined in most dictionaries and as it used in many scientific fields rather than as it is usually defined in educational statistics courses. By “hypothesis,” we do not mean a null hypothesis that is accepted or rejected by statistical analysis. Rather, we use “hypothesis” in the sense conveyed by the following definitions: “An idea or explanation for something that is based on known facts but has not yet been proved” (Cambridge University Press, n.d. ), and “An unproved theory, proposition, or supposition, tentatively accepted to explain certain facts and to provide a basis for further investigation or argument” (Agnes & Guralnik, 2008 ).

We distinguish two parts to “hypotheses.” Hypotheses consist of predictions and rationales . Predictions are statements about what you expect to find when you inquire about something. Rationales are explanations for why you made the predictions you did, why you believe your predictions are correct. So, for us “formulating hypotheses” means making explicit predictions and developing rationales for the predictions.

“Testing hypotheses” means making observations that allow you to assess in what ways your predictions were correct and in what ways they were incorrect. In education research, it is rarely useful to think of your predictions as either right or wrong. Because of the complexity of most issues you will investigate, most predictions will be right in some ways and wrong in others.

By studying the observations you make (data you collect) to test your hypotheses, you can revise your hypotheses to better align with the observations. This means revising your predictions plus revising your rationales to justify your adjusted predictions. Even though you might not run another test, formulating revised hypotheses is an essential part of conducting a research study. Comparing your original and revised hypotheses informs everyone of what you learned by conducting your study. In addition, a revised hypothesis sets the stage for you or someone else to extend your study and accumulate more knowledge of the phenomenon.

We should note that not everyone makes a clear distinction between predictions and rationales as two aspects of hypotheses. In fact, common, non-scientific uses of the word “hypothesis” may limit it to only a prediction or only an explanation (or rationale). We choose to explicitly include both prediction and rationale in our definition of hypothesis, not because we assert this should be the universal definition, but because we want to foreground the importance of both parts acting in concert. Using “hypothesis” to represent both prediction and rationale could hide the two aspects, but we make them explicit because they provide different kinds of information. It is usually easier to make predictions than develop rationales because predictions can be guesses, hunches, or gut feelings about which you have little confidence. Developing a compelling rationale requires careful thought plus reading what other researchers have found plus talking with your colleagues. Often, while you are developing your rationale you will find good reasons to change your predictions. Developing good rationales is the engine that drives scientific inquiry. Rationales are essentially descriptions of how much you know about the phenomenon you are studying. Throughout this guide, we will elaborate on how developing good rationales drives scientific inquiry. For now, we simply note that it can sharpen your predictions and help you to interpret your data as you test your hypotheses.

Hypotheses in education research take a variety of forms or types. This is because there are a variety of phenomena that can be investigated. Investigating educational phenomena is sometimes best done using qualitative methods, sometimes using quantitative methods, and most often using mixed methods (e.g., Hay, 2016 ; Weis et al. 2019a ; Weisner, 2005 ). This means that, given our definition, hypotheses are equally applicable to qualitative and quantitative investigations.

Hypotheses take different forms when they are used to investigate different kinds of phenomena. Two very different activities in education could be labeled conducting experiments and descriptions. In an experiment, a hypothesis makes a prediction about anticipated changes, say the changes that occur when a treatment or intervention is applied. You might investigate how students’ thinking changes during a particular kind of instruction.

A second type of hypothesis, relevant for descriptive research, makes a prediction about what you will find when you investigate and describe the nature of a situation. The goal is to understand a situation as it exists rather than to understand a change from one situation to another. In this case, your prediction is what you expect to observe. Your rationale is the set of reasons for making this prediction; it is your current explanation for why the situation will look like it does.

You will probably read, if you have not already, that some researchers say you do not need a prediction to conduct a descriptive study. We will discuss this point of view in Chap. 2 . For now, we simply claim that scientific inquiry, as we have defined it, applies to all kinds of research studies. Descriptive studies, like others, not only benefit from formulating, testing, and revising hypotheses, but also need hypothesis formulating, testing, and revising.

One reason we define research as formulating, testing, and revising hypotheses is that if you think of research in this way you are less likely to go wrong. It is a useful guide for the entire process, as we will describe in detail in the chapters ahead. For example, as you build the rationale for your predictions, you are constructing the theoretical framework for your study (Chap. 3 ). As you work out the methods you will use to test your hypothesis, every decision you make will be based on asking, “Will this help me formulate or test or revise my hypothesis?” (Chap. 4 ). As you interpret the results of testing your predictions, you will compare them to what you predicted and examine the differences, focusing on how you must revise your hypotheses (Chap. 5 ). By anchoring the process to formulating, testing, and revising hypotheses, you will make smart decisions that yield a coherent and well-designed study.

Exercise 1.5

Compare the concept of formulating, testing, and revising hypotheses with the descriptions of scientific inquiry contained in Scientific Research in Education (NRC, 2002 ). How are they similar or different?

Exercise 1.6

Provide an example to illustrate and emphasize the differences between everyday learning/thinking and scientific inquiry.

Learning from Doing Scientific Inquiry

We noted earlier that a measure of what you have learned by conducting a research study is found in the differences between your original hypothesis and your revised hypothesis based on the data you collected to test your hypothesis. We will elaborate this statement in later chapters, but we preview our argument here.

Even before collecting data, scientific inquiry requires cycles of making a prediction, developing a rationale, refining your predictions, reading and studying more to strengthen your rationale, refining your predictions again, and so forth. And, even if you have run through several such cycles, you still will likely find that when you test your prediction you will be partly right and partly wrong. The results will support some parts of your predictions but not others, or the results will “kind of” support your predictions. A critical part of scientific inquiry is making sense of your results by interpreting them against your predictions. Carefully describing what aspects of your data supported your predictions, what aspects did not, and what data fell outside of any predictions is not an easy task, but you cannot learn from your study without doing this analysis.

Analyzing the matches and mismatches between your predictions and your data allows you to formulate different rationales that would have accounted for more of the data. The best revised rationale is the one that accounts for the most data. Once you have revised your rationales, you can think about the predictions they best justify or explain. It is by comparing your original rationales to your new rationales that you can sort out what you learned from your study.

Suppose your study was an experiment. Maybe you were investigating the effects of a new instructional intervention on students’ learning. Your original rationale was your explanation for why the intervention would change the learning outcomes in a particular way. Your revised rationale explained why the changes that you observed occurred like they did and why your revised predictions are better. Maybe your original rationale focused on the potential of the activities if they were implemented in ideal ways and your revised rationale included the factors that are likely to affect how teachers implement them. By comparing the before and after rationales, you are describing what you learned—what you can explain now that you could not before. Another way of saying this is that you are describing how much more you understand now than before you conducted your study.

Revised predictions based on carefully planned and collected data usually exhibit some of the following features compared with the originals: more precision, more completeness, and broader scope. Revised rationales have more explanatory power and become more complete, more aligned with the new predictions, sharper, and overall more convincing.

Part II. Why Do Educators Do Research?

Doing scientific inquiry is a lot of work. Each phase of the process takes time, and you will often cycle back to improve earlier phases as you engage in later phases. Because of the significant effort required, you should make sure your study is worth it. So, from the beginning, you should think about the purpose of your study. Why do you want to do it? And, because research is a social practice, you should also think about whether the results of your study are likely to be important and significant to the education community.

If you are doing research in the way we have described—as scientific inquiry—then one purpose of your study is to understand , not just to describe or evaluate or report. As we noted earlier, when you formulate hypotheses, you are developing rationales that explain why things might be like they are. In our view, trying to understand and explain is what separates research from other kinds of activities, like evaluating or describing.

One reason understanding is so important is that it allows researchers to see how or why something works like it does. When you see how something works, you are better able to predict how it might work in other contexts, under other conditions. And, because conditions, or contextual factors, matter a lot in education, gaining insights into applying your findings to other contexts increases the contributions of your work and its importance to the broader education community.

Consequently, the purposes of research studies in education often include the more specific aim of identifying and understanding the conditions under which the phenomena being studied work like the observations suggest. A classic example of this kind of study in mathematics education was reported by William Brownell and Harold Moser in 1949 . They were trying to establish which method of subtracting whole numbers could be taught most effectively—the regrouping method or the equal additions method. However, they realized that effectiveness might depend on the conditions under which the methods were taught—“meaningfully” versus “mechanically.” So, they designed a study that crossed the two instructional approaches with the two different methods (regrouping and equal additions). Among other results, they found that these conditions did matter. The regrouping method was more effective under the meaningful condition than the mechanical condition, but the same was not true for the equal additions algorithm.

What do education researchers want to understand? In our view, the ultimate goal of education is to offer all students the best possible learning opportunities. So, we believe the ultimate purpose of scientific inquiry in education is to develop understanding that supports the improvement of learning opportunities for all students. We say “ultimate” because there are lots of issues that must be understood to improve learning opportunities for all students. Hypotheses about many aspects of education are connected, ultimately, to students’ learning. For example, formulating and testing a hypothesis that preservice teachers need to engage in particular kinds of activities in their coursework in order to teach particular topics well is, ultimately, connected to improving students’ learning opportunities. So is hypothesizing that school districts often devote relatively few resources to instructional leadership training or hypothesizing that positioning mathematics as a tool students can use to combat social injustice can help students see the relevance of mathematics to their lives.

We do not exclude the importance of research on educational issues more removed from improving students’ learning opportunities, but we do think the argument for their importance will be more difficult to make. If there is no way to imagine a connection between your hypothesis and improving learning opportunities for students, even a distant connection, we recommend you reconsider whether it is an important hypothesis within the education community.

Notice that we said the ultimate goal of education is to offer all students the best possible learning opportunities. For too long, educators have been satisfied with a goal of offering rich learning opportunities for lots of students, sometimes even for just the majority of students, but not necessarily for all students. Evaluations of success often are based on outcomes that show high averages. In other words, if many students have learned something, or even a smaller number have learned a lot, educators may have been satisfied. The problem is that there is usually a pattern in the groups of students who receive lower quality opportunities—students of color and students who live in poor areas, urban and rural. This is not acceptable. Consequently, we emphasize the premise that the purpose of education research is to offer rich learning opportunities to all students.

One way to make sure you will be able to convince others of the importance of your study is to consider investigating some aspect of teachers’ shared instructional problems. Historically, researchers in education have set their own research agendas, regardless of the problems teachers are facing in schools. It is increasingly recognized that teachers have had trouble applying to their own classrooms what researchers find. To address this problem, a researcher could partner with a teacher—better yet, a small group of teachers—and talk with them about instructional problems they all share. These discussions can create a rich pool of problems researchers can consider. If researchers pursued one of these problems (preferably alongside teachers), the connection to improving learning opportunities for all students could be direct and immediate. “Grounding a research question in instructional problems that are experienced across multiple teachers’ classrooms helps to ensure that the answer to the question will be of sufficient scope to be relevant and significant beyond the local context” (Cai et al., 2019b , p. 115).

As a beginning researcher, determining the relevance and importance of a research problem is especially challenging. We recommend talking with advisors, other experienced researchers, and peers to test the educational importance of possible research problems and topics of study. You will also learn much more about the issue of research importance when you read Chap. 5 .

Exercise 1.7

Identify a problem in education that is closely connected to improving learning opportunities and a problem that has a less close connection. For each problem, write a brief argument (like a logical sequence of if-then statements) that connects the problem to all students’ learning opportunities.

Part III. Conducting Research as a Practice of Failing Productively

Scientific inquiry involves formulating hypotheses about phenomena that are not fully understood—by you or anyone else. Even if you are able to inform your hypotheses with lots of knowledge that has already been accumulated, you are likely to find that your prediction is not entirely accurate. This is normal. Remember, scientific inquiry is a process of constantly updating your thinking. More and better information means revising your thinking, again, and again, and again. Because you never fully understand a complicated phenomenon and your hypotheses never produce completely accurate predictions, it is easy to believe you are somehow failing.

The trick is to fail upward, to fail to predict accurately in ways that inform your next hypothesis so you can make a better prediction. Some of the best-known researchers in education have been open and honest about the many times their predictions were wrong and, based on the results of their studies and those of others, they continuously updated their thinking and changed their hypotheses.

A striking example of publicly revising (actually reversing) hypotheses due to incorrect predictions is found in the work of Lee J. Cronbach, one of the most distinguished educational psychologists of the twentieth century. In 1955, Cronbach delivered his presidential address to the American Psychological Association. Titling it “Two Disciplines of Scientific Psychology,” Cronbach proposed a rapprochement between two research approaches—correlational studies that focused on individual differences and experimental studies that focused on instructional treatments controlling for individual differences. (We will examine different research approaches in Chap. 4 ). If these approaches could be brought together, reasoned Cronbach ( 1957 ), researchers could find interactions between individual characteristics and treatments (aptitude-treatment interactions or ATIs), fitting the best treatments to different individuals.

In 1975, after years of research by many researchers looking for ATIs, Cronbach acknowledged the evidence for simple, useful ATIs had not been found. Even when trying to find interactions between a few variables that could provide instructional guidance, the analysis, said Cronbach, creates “a hall of mirrors that extends to infinity, tormenting even the boldest investigators and defeating even ambitious designs” (Cronbach, 1975 , p. 119).

As he was reflecting back on his work, Cronbach ( 1986 ) recommended moving away from documenting instructional effects through statistical inference (an approach he had championed for much of his career) and toward approaches that probe the reasons for these effects, approaches that provide a “full account of events in a time, place, and context” (Cronbach, 1986 , p. 104). This is a remarkable change in hypotheses, a change based on data and made fully transparent. Cronbach understood the value of failing productively.

Closer to home, in a less dramatic example, one of us began a line of scientific inquiry into how to prepare elementary preservice teachers to teach early algebra. Teaching early algebra meant engaging elementary students in early forms of algebraic reasoning. Such reasoning should help them transition from arithmetic to algebra. To begin this line of inquiry, a set of activities for preservice teachers were developed. Even though the activities were based on well-supported hypotheses, they largely failed to engage preservice teachers as predicted because of unanticipated challenges the preservice teachers faced. To capitalize on this failure, follow-up studies were conducted, first to better understand elementary preservice teachers’ challenges with preparing to teach early algebra, and then to better support preservice teachers in navigating these challenges. In this example, the initial failure was a necessary step in the researchers’ scientific inquiry and furthered the researchers’ understanding of this issue.

We present another example of failing productively in Chap. 2 . That example emerges from recounting the history of a well-known research program in mathematics education.

Making mistakes is an inherent part of doing scientific research. Conducting a study is rarely a smooth path from beginning to end. We recommend that you keep the following things in mind as you begin a career of conducting research in education.

First, do not get discouraged when you make mistakes; do not fall into the trap of feeling like you are not capable of doing research because you make too many errors.

Second, learn from your mistakes. Do not ignore your mistakes or treat them as errors that you simply need to forget and move past. Mistakes are rich sites for learning—in research just as in other fields of study.

Third, by reflecting on your mistakes, you can learn to make better mistakes, mistakes that inform you about a productive next step. You will not be able to eliminate your mistakes, but you can set a goal of making better and better mistakes.

Exercise 1.8

How does scientific inquiry differ from everyday learning in giving you the tools to fail upward? You may find helpful perspectives on this question in other resources on science and scientific inquiry (e.g., Failure: Why Science is So Successful by Firestein, 2015).

Exercise 1.9

Use what you have learned in this chapter to write a new definition of scientific inquiry. Compare this definition with the one you wrote before reading this chapter. If you are reading this book as part of a course, compare your definition with your colleagues’ definitions. Develop a consensus definition with everyone in the course.

Part IV. Preview of Chap. 2

Now that you have a good idea of what research is, at least of what we believe research is, the next step is to think about how to actually begin doing research. This means how to begin formulating, testing, and revising hypotheses. As for all phases of scientific inquiry, there are lots of things to think about. Because it is critical to start well, we devote Chap. 2 to getting started with formulating hypotheses.

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Hiebert, J., Cai, J., Hwang, S., Morris, A.K., Hohensee, C. (2023). What Is Research, and Why Do People Do It?. In: Doing Research: A New Researcher’s Guide. Research in Mathematics Education. Springer, Cham. https://doi.org/10.1007/978-3-031-19078-0_1

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How to Identify and Develop a Topic: .

How to identify and develop a topic.

It is difficult to define a topic with much specificity before starting your research. But until you define your topic, you won't know where to begin your search for information and you won't know what to look for. With a well-defined topic, you can focus your search strategies to find lots of relevant information without also finding a lot of useless stuff.

Selecting a topic to research is not a one-step task. Identifying and developing your topic is an ongoing process that does not end until you have finished your research project. Start with an idea you are interested in. Find and read some background information to get a better understanding of the topic, then use what you have learned to search for more specific information. Refine (broaden, narrow, refocus, or change) your topic, and try another search.  

Find a Topic

If you weren't assigned a specific topic and can't think of one:

• talk with your class instructor (who is, after all, the reason you are doing this project in the first place)
• find something interesting in the course reading assignments
• look at the entries and index of a subject encyclopedia
• ask a librarian to help you figure out a topic  

Narrow Your Topic

The initial idea for a research topic is often too broad. If your first searches for resources are so general that you find more information than you can click a mouse at or deal with in a reasonable amount of time (i.e. before the research project is due), focus on one of the following:

• a specific period of time
• a specific geographic location
• specific individuals or groups
• a specific aspect of the subject
• the viewpoint of a specific discipline  

Make it a Question

It is often helpful to state your topic in the form of a question. Treat the research project as an attempt to find a specific answer for a specific question.  

List Main Concepts

Pull out ideas and key terms that describe your topic. You can get a better idea of these by looking up your topic in an encyclopedia or other appropriate reference work. This will give you a better understanding of your topic, which will help you figure out what sources you will need and where you will need to look to find them.  

Analyze Your Topic

Where should you look for information? From what subject or discipline perspective are you looking at this topic? Do you need scholarly or popular sources? Will you need books, articles, sound recordings, primary sources, etc.?  

Select Appropriate Tools

Which tools do you need to find the type of information you want, (e.g. the library catalog for books, subject specific indexes for journal articles, etc.) See the library's guide to How to Find and Evaluate Sources for more.  

Initial Results

After you do an initial search, you can tell some things just from the number and type of sources you find. If you get a million or so hits, you probably need to narrow your topic. If you get only a few, broaden it. If the hits seem to be irrelevant to your topic, search using different terms. Do another search and see if you get what seems to be an appropriate amount of appropriate sources. Keep refining your search until you are satisfied with your results. Then go read them.  

After reading through some of the sources you find, you will get a better understanding of the topic you are researching. With this better understanding, you can revise your initial topic and its corresponding question for which you are so diligently seeking an answer. You can also refine your search strategy: the databases you search in, the keywords or subject terms you search for, etc. Go back and try another search using your revisions. Repeat as necessary until you have done enough research to know what to ask and how to answer it.

• Last Updated: Oct 20, 2020 8:13 PM
• URL: https://libguides.wesleyan.edu/topic

1000+ FREE Research Topics & Ideas

If you’re at the start of your research journey and are trying to figure out which research topic you want to focus on, you’ve come to the right place. Select your area of interest below to view a comprehensive collection of potential research ideas.

Research Topic FAQs

What (exactly) is a research topic.

A research topic is the subject of a research project or study – for example, a dissertation or thesis. A research topic typically takes the form of a problem to be solved, or a question to be answered.

A good research topic should be specific enough to allow for focused research and analysis. For example, if you are interested in studying the effects of climate change on agriculture, your research topic could focus on how rising temperatures have impacted crop yields in certain regions over time.

To learn more about the basics of developing a research topic, consider our free research topic ideation webinar.

What constitutes a good research topic?

A strong research topic comprises three important qualities : originality, value and feasibility.

• Originality – a good topic explores an original area or takes a novel angle on an existing area of study.
• Value – a strong research topic provides value and makes a contribution, either academically or practically.
• Feasibility – a good research topic needs to be practical and manageable, given the resource constraints you face.

To learn more about what makes for a high-quality research topic, check out this post .

What's the difference between a research topic and research problem?

A research topic and a research problem are two distinct concepts that are often confused. A research topic is a broader label that indicates the focus of the study , while a research problem is an issue or gap in knowledge within the broader field that needs to be addressed.

To illustrate this distinction, consider a student who has chosen “teenage pregnancy in the United Kingdom” as their research topic. This research topic could encompass any number of issues related to teenage pregnancy such as causes, prevention strategies, health outcomes for mothers and babies, etc.

Within this broad category (the research topic) lies potential areas of inquiry that can be explored further – these become the research problems . For example:

• What factors contribute to higher rates of teenage pregnancy in certain communities?
• How do different types of parenting styles affect teen pregnancy rates?
• What interventions have been successful in reducing teenage pregnancies?

Simply put, a key difference between a research topic and a research problem is scope ; the research topic provides an umbrella under which multiple questions can be asked, while the research problem focuses on one specific question or set of questions within that larger context.

How can I find potential research topics for my project?

There are many steps involved in the process of finding and choosing a high-quality research topic for a dissertation or thesis. We cover these steps in detail in this video (also accessible below).

How can I find quality sources for my research topic?

Finding quality sources is an essential step in the topic ideation process. To do this, you should start by researching scholarly journals, books, and other academic publications related to your topic. These sources can provide reliable information on a wide range of topics. Additionally, they may contain data or statistics that can help support your argument or conclusions.

Identifying Relevant Sources

When searching for relevant sources, it’s important to look beyond just published material; try using online databases such as Google Scholar or JSTOR to find articles from reputable journals that have been peer-reviewed by experts in the field.

You can also use search engines like Google or Bing to locate websites with useful information about your topic. However, be sure to evaluate any website before citing it as a source—look for evidence of authorship (such as an “About Us” page) and make sure the content is up-to-date and accurate before relying on it.

Evaluating Sources

Once you’ve identified potential sources for your research project, take some time to evaluate them thoroughly before deciding which ones will best serve your purpose. Consider factors such as author credibility (are they an expert in their field?), publication date (is the source current?), objectivity (does the author present both sides of an issue?) and relevance (how closely does this source relate to my specific topic?).

By researching the current literature on your topic, you can identify potential sources that will help to provide quality information. Once you’ve identified these sources, it’s time to look for a gap in the research and determine what new knowledge could be gained from further study.

How can I find a good research gap?

Finding a strong gap in the literature is an essential step when looking for potential research topics. We explain what research gaps are and how to find them in this post.

How should I evaluate potential research topics/ideas?

When evaluating potential research topics, it is important to consider the factors that make for a strong topic (we discussed these earlier). Specifically:

• Originality
• Feasibility

So, when you have a list of potential topics or ideas, assess each of them in terms of these three criteria. A good topic should take a unique angle, provide value (either to academia or practitioners), and be practical enough for you to pull off, given your limited resources.

Finally, you should also assess whether this project could lead to potential career opportunities such as internships or job offers down the line. Make sure that you are researching something that is relevant enough so that it can benefit your professional development in some way. Additionally, consider how each research topic aligns with your career goals and interests; researching something that you are passionate about can help keep motivation high throughout the process.

How can I assess the feasibility of a research topic?

When evaluating the feasibility and practicality of a research topic, it is important to consider several factors.

First, you should assess whether or not the research topic is within your area of competence. Of course, when you start out, you are not expected to be the world’s leading expert, but do should at least have some foundational knowledge.

Time commitment

When considering a research topic, you should think about how much time will be required for completion. Depending on your field of study, some topics may require more time than others due to their complexity or scope.

Additionally, if you plan on collaborating with other researchers or institutions in order to complete your project, additional considerations must be taken into account such as coordinating schedules and ensuring that all parties involved have adequate resources available.

Resources needed

It’s also critically important to consider what type of resources are necessary in order to conduct the research successfully. This includes physical materials such as lab equipment and chemicals but can also include intangible items like access to certain databases or software programs which may be necessary depending on the nature of your work. Additionally, if there are costs associated with obtaining these materials then this must also be factored into your evaluation process.

Potential risks

It’s important to consider the inherent potential risks for each potential research topic. These can include ethical risks (challenges getting ethical approval), data risks (not being able to access the data you’ll need), technical risks relating to the equipment you’ll use and funding risks (not securing the necessary financial back to undertake the research).

If you’re looking for more information about how to find, evaluate and select research topics for your dissertation or thesis, check out our free webinar here . Alternatively, if you’d like 1:1 help with the topic ideation process, consider our private coaching services .

Psst… there’s more (for free)

This post is part of our dissertation mini-course, which covers everything you need to get started with your dissertation, thesis or research project. 

Research Process Guide

• Step 1 - Identifying and Developing a Topic
• Step 2 - Narrowing Your Topic
• Step 3 - Developing Research Questions
• Step 4 - Conducting a Literature Review
• Step 5 - Choosing a Conceptual or Theoretical Framework
• Step 6 - Determining Research Methodology
• Step 6a - Determining Research Methodology - Quantitative Research Methods
• Step 6b - Determining Research Methodology - Qualitative Design
• Step 7 - Considering Ethical Issues in Research with Human Subjects - Institutional Review Board (IRB)
• Step 8 - Collecting Data
• Step 9 - Analyzing Data
• Step 10 - Interpreting Results
• Step 11 - Writing Up Results

Step 1: Identifying and Developing a Topic

Whatever your field or discipline, the best advice to give on identifying a research topic is to choose something that you find really interesting. You will be spending an enormous amount of time with your topic, you need to be invested. Over the course of your research design, proposal and actually conducting your study, you may feel like you are really tired of your topic, however,  your interest and investment in the topic will help you persist through dissertation defense. Identifying a research topic can be challenging. Most of the research that has been completed on the process of conducting research fails to examine the preliminary stages of the interactive and self-reflective process of identifying a research topic (Wintersberger & Saunders, 2020).  You may choose a topic at the beginning of the process, and through exploring the research that has already been done, one’s own interests that are narrowed or expanded in scope, the topic will change over time (Dwarkadas & Lin, 2019). Where do I begin? According to the research, there are generally two paths to exploring your research topic, creative path and the rational path (Saunders et al., 2019).  The rational path takes a linear path and deals with questions we need to ask ourselves like: what are some timely topics in my field in the media right now?; what strengths do I bring to the research?; what are the gaps in the research about the area of research interest? (Saunders et al., 2019; Wintersberger & Saunders, 2020).The creative path is less linear in that it may include keeping a notebook of ideas based on discussion in coursework or with your peers in the field. Whichever path you take, you will inevitably have to narrow your more generalized ideas down. A great way to do that is to continue reading the literature about and around your topic looking for gaps that could be explored. Also, try engaging in meaningful discussions with experts in your field to get their take on your research ideas (Saunders et al., 2019; Wintersberger & Saunders, 2020). It is important to remember that a research topic should be (Dwarkadas & Lin, 2019; Saunders et al., 2019; Wintersberger & Saunders, 2020):

• Interesting to you.
• Realistic in that it can be completed in an appropriate amount of time.
• Relevant to your program or field of study.
• Not widely researched.

Dwarkadas, S., & Lin, M. C. (2019, August 04). Finding a research topic. Computing Research Association for Women, Portland State University. https://cra.org/cra-wp/wp-content/uploads/sites/8/2019/04/FindingResearchTopic/2019.pdf

Saunders, M. N. K., Lewis, P., & Thornhill, A. (2019). Research methods for business students (8th ed.). Pearson.

Wintersberger, D., & Saunders, M. (2020). Formulating and clarifying the research topic: Insights and a guide for the production management research community. Production, 30 . https://doi.org/10.1590/0103-6513.20200059

• Last Updated: Jun 29, 2023 1:35 PM
• URL: https://libguides.kean.edu/ResearchProcessGuide

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Research Topics – Ideas and Examples

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Research Topic

Definition:

Research topic is a specific subject or area of interest that a researcher wants to investigate or explore in-depth through research. It is the overarching theme or question that guides a research project and helps to focus the research activities towards a clear objective.

How to Choose Research Topic

You can Choose a Research Topic by following the below guide:

Identify your Interests

One of the most important factors to consider when choosing a research topic is your personal interest. This is because you will be spending a considerable amount of time researching and writing about the topic, so it’s essential that you are genuinely interested and passionate about it. Start by brainstorming a list of potential research topics based on your interests, hobbies, or areas of expertise. You can also consider the courses that you’ve enjoyed the most or the topics that have stood out to you in your readings.

Review the Literature

Before deciding on a research topic, you need to understand what has already been written about it. Conducting a preliminary review of the existing literature in your field can help you identify gaps in knowledge, inconsistencies in findings, or unanswered questions that you can explore further. You can do this by reading academic articles, books, and other relevant sources in your field. Make notes of the themes or topics that emerge and use this information to guide your research question.

Consult with your Advisor

Your academic advisor or a mentor in your field can provide you with valuable insights and guidance on choosing a research topic. They can help you identify areas of interest, suggest potential research questions, and provide feedback on the feasibility of your research proposal. They can also direct you towards relevant literature and resources that can help you develop your research further.

Consider the Scope and Feasibility

The research topic you choose should be manageable within the time and resource constraints of your project. Be mindful of the scope of your research and ensure that you are not trying to tackle a topic that is too broad or too narrow. If your topic is too broad, you may find it challenging to conduct a comprehensive analysis, while if it’s too narrow, you may struggle to find enough material to support your research.

Brainstorm with Peers

Discussing potential research topics with your peers or colleagues can help you generate new ideas and perspectives. They may have insights or expertise that you haven’t considered, and their feedback can help you refine your research question. You can also join academic groups or attend conferences in your field to network with other researchers and get inspiration for your research.

Consider the Relevance

Choose a research topic that is relevant to your field of study and has the potential to contribute to the existing knowledge. You can consider the latest trends and emerging issues in your field to identify topics that are both relevant and interesting. Conducting research on a topic that is timely and relevant can also increase the likelihood of getting published or presenting your research at conferences.

Keep an Open Mind

While it’s essential to choose a research topic that aligns with your interests and expertise, you should also be open to exploring new ideas or topics that may be outside of your comfort zone. Consider researching a topic that challenges your assumptions or introduces new perspectives that you haven’t considered before. You may discover new insights or perspectives that can enrich your research and contribute to your growth as a researcher.

Components of Research Topic

A research topic typically consists of several components that help to define and clarify the subject matter of the research project. These components include:

• Research problem or question: This is the central issue or inquiry that the research seeks to address. It should be well-defined and focused, with clear boundaries that limit the scope of the research.
• Background and context: This component provides the necessary background information and context for the research topic. It explains why the research problem or question is important, relevant, and timely. It may also include a literature review that summarizes the existing research on the topic.
• Objectives or goals : This component outlines the specific objectives or goals that the research seeks to achieve. It should be clear and concise, and should align with the research problem or question.
• Methodology : This component describes the research methods and techniques that will be used to collect and analyze data. It should be detailed enough to provide a clear understanding of how the research will be conducted, including the sampling method, data collection tools, and statistical analyses.
• Significance or contribution : This component explains the significance or contribution of the research topic. It should demonstrate how the research will add to the existing knowledge in the field, and how it will benefit practitioners, policymakers, or society at large.
• Limitations: This component outlines the limitations of the research, including any potential biases, assumptions, or constraints. It should be transparent and honest about the potential shortcomings of the research, and how these limitations will be addressed.
• Expected outcomes or findings : This component provides an overview of the expected outcomes or findings of the research project. It should be realistic and based on the research objectives and methodology.

Purpose of Research Topic

The purpose of a research topic is to identify a specific area of inquiry that the researcher wants to explore and investigate. A research topic is typically a broad area of interest that requires further exploration and refinement through the research process. It provides a clear focus and direction for the research project, and helps to define the research questions and objectives. A well-defined research topic also helps to ensure that the research is relevant and useful, and can contribute to the existing body of knowledge in the field. Ultimately, the purpose of a research topic is to generate new insights, knowledge, and understanding about a particular phenomenon, issue, or problem.

Characteristics of Research Topic

some common characteristics of a well-defined research topic include:

• Relevance : A research topic should be relevant and significant to the field of study and address a current issue, problem, or gap in knowledge.
• Specificity : A research topic should be specific enough to allow for a focused investigation and clear understanding of the research question.
• Feasibility : A research topic should be feasible, meaning it should be possible to carry out the research within the given constraints of time, resources, and expertise.
• Novelty : A research topic should add to the existing body of knowledge by introducing new ideas, concepts, or theories.
• Clarity : A research topic should be clearly articulated and easy to understand, both for the researcher and for potential readers of the research.
• Importance : A research topic should be important and have practical implications for the field or society as a whole.
• Significance : A research topic should be significant and have the potential to generate new insights and understanding in the field.

Examples of Research Topics

Here are some examples of research topics that are currently relevant and in-demand in various fields:

• The impact of social media on mental health: With the rise of social media use, this topic has gained significant attention in recent years. Researchers could investigate how social media affects self-esteem, body image, and other mental health concerns.
• The use of artificial intelligence in healthcare: As healthcare becomes increasingly digitalized, researchers could explore the use of AI algorithms to predict and prevent disease, optimize treatment plans, and improve patient outcomes.
• Renewable energy and sustainable development: As the world seeks to reduce its carbon footprint, researchers could investigate the potential of renewable energy sources such as wind and solar power, and how these technologies can be integrated into existing infrastructure.
• The impact of workplace diversity and inclusion on employee productivity: With an increasing focus on diversity and inclusion in the workplace, researchers could investigate how these factors affect employee morale, productivity, and retention.
• Cybersecurity and data privacy: As data breaches and cyber attacks become more common, researchers could explore new methods of protecting sensitive information and preventing malicious attacks.
• T he impact of mindfulness and meditation on stress reduction: As stress-related health issues become more prevalent, researchers could investigate the effectiveness of mindfulness and meditation practices on reducing stress and improving overall well-being.

Research Topics Ideas

Here are some Research Topics Ideas from different fields:

• The impact of social media on mental health and well-being.
• The effectiveness of various teaching methods in improving academic performance in high schools.
• The role of AI and machine learning in healthcare: current applications and future potentials.
• The impact of climate change on wildlife habitats and conservation efforts.
• The effects of video game violence on aggressive behavior in young adults.
• The effectiveness of mindfulness-based stress reduction techniques in reducing anxiety and depression.
• The impact of technology on human relationships and social interactions.
• The role of exercise in promoting physical and mental health in older adults.
• The causes and consequences of income inequality in developed and developing countries.
• The effects of cultural diversity in the workplace on job satisfaction and productivity.
• The impact of remote work on employee productivity and work-life balance.
• The relationship between sleep patterns and cognitive functioning.
• The effectiveness of online learning versus traditional classroom learning.
• The role of government policies in promoting renewable energy adoption.
• The effects of childhood trauma on mental health in adulthood.
• The impact of social media on political participation and civic engagement.
• The effectiveness of cognitive-behavioral therapy in treating anxiety disorders.
• The relationship between nutrition and cognitive functioning.
• The impact of gentrification on urban communities.
• The effects of music on mood and emotional regulation.
• The impact of microplastics on marine ecosystems and food webs.
• The role of artificial intelligence in detecting and preventing cyberattacks.
• The effectiveness of mindfulness-based interventions in managing chronic pain.
• The relationship between personality traits and job satisfaction.
• The effects of social isolation on mental and physical health in older adults.
• The impact of cultural and linguistic diversity on healthcare access and outcomes.
• The effectiveness of psychotherapy in treating depression and anxiety in adolescents.
• The relationship between exercise and cognitive aging.
• The effects of social media on body image and self-esteem.
• The role of corporate social responsibility in promoting sustainable business practices.
• The impact of mindfulness meditation on attention and focus in children.
• The relationship between political polarization and media consumption habits.
• The effects of urbanization on mental health and well-being.
• The role of social support in managing chronic illness.
• The impact of social media on romantic relationships and dating behaviors.
• The effectiveness of behavioral interventions in promoting physical activity in sedentary adults.
• The relationship between sleep quality and immune function.
• The effects of workplace diversity and inclusion programs on employee retention.
• The impact of climate change on global food security.
• The role of music therapy in improving communication and social skills in individuals with autism spectrum disorder.
• The impact of cultural values on the development of mental health stigma.
• The effectiveness of mindfulness-based stress reduction techniques in reducing burnout in healthcare professionals.
• The relationship between social media use and body dissatisfaction among adolescents.
• The effects of nature exposure on cognitive functioning and well-being.
• The role of peer mentoring in promoting academic success in underrepresented student populations.
• The impact of neighborhood characteristics on physical activity and obesity.
• The effectiveness of cognitive rehabilitation interventions in improving cognitive functioning in individuals with traumatic brain injury.
• The relationship between organizational culture and employee job satisfaction.
• The effects of cultural immersion experiences on intercultural competence development.
• The role of assistive technology in promoting independence and quality of life for individuals with disabilities.
• The impact of workplace design on employee productivity and well-being.
• The impact of digital technologies on the music industry and artist revenues.
• The effectiveness of cognitive behavioral therapy in treating insomnia.
• The relationship between social media use and body weight perception among young adults.
• The effects of green spaces on mental health and well-being in urban areas.
• The role of mindfulness-based interventions in reducing substance use disorders.
• The impact of workplace bullying on employee turnover and job satisfaction.
• The effectiveness of animal-assisted therapy in treating mental health disorders.
• The relationship between teacher-student relationships and academic achievement.
• The effects of social support on resilience in individuals experiencing adversity.
• The role of cognitive aging in driving safety and mobility.
• The effectiveness of psychotherapy in treating post-traumatic stress disorder (PTSD).
• The relationship between social media use and sleep quality.
• The effects of cultural competency training on healthcare providers’ attitudes and behaviors towards diverse patient populations.
• The role of exercise in preventing chronic diseases such as type 2 diabetes and cardiovascular disease.
• The impact of the gig economy on job security and worker rights.
• The effectiveness of art therapy in promoting emotional regulation and coping skills in children and adolescents.
• The relationship between parenting styles and child academic achievement.
• The effects of social comparison on well-being and self-esteem.
• The role of nutrition in promoting healthy aging and longevity.
• The impact of gender diversity in leadership on organizational performance.
• The effectiveness of family-based interventions in treating eating disorders.
• The relationship between social media use and perceived loneliness among older adults.
• The effects of mindfulness-based interventions on pain management in chronic pain patients.
• The role of physical activity in preventing and treating depression.
• The impact of cultural differences on communication and conflict resolution in international business.
• The effectiveness of eye movement desensitization and reprocessing (EMDR) in treating anxiety disorders.
• The relationship between student engagement and academic success in higher education.
• The effects of discrimination on mental health outcomes in minority populations.
• The role of virtual reality in enhancing learning experiences.
• The impact of social media influencers on consumer behavior and brand loyalty.
• The effectiveness of acceptance and commitment therapy (ACT) in treating chronic pain.
• The relationship between social media use and body image dissatisfaction among men.
• The effects of exposure to nature on cognitive functioning and creativity.
• The role of spirituality in coping with illness and disability.
• The impact of automation on employment and job displacement.
• The effectiveness of dialectical behavior therapy (DBT) in treating borderline personality disorder.
• The relationship between teacher-student relationships and school attendance.
• The effects of mindfulness-based interventions on workplace stress and burnout.
• The role of exercise in promoting cognitive functioning and brain health in older adults.
• The impact of diversity and inclusion initiatives on organizational innovation and creativity.
• The effectiveness of cognitive remediation therapy in treating schizophrenia.
• The relationship between social media use and body dissatisfaction among women.
• The effects of exposure to natural light on mood and sleep quality.
• The role of spirituality in enhancing well-being and resilience in military personnel.
• The impact of artificial intelligence on job training and skill development.
• The effectiveness of interpersonal therapy (IPT) in treating depression.
• The relationship between parental involvement and academic achievement among low-income students.
• The effects of mindfulness-based interventions on emotional regulation and coping skills in trauma survivors.
• The role of nutrition in preventing and treating mental health disorders.

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Researcher, Academic Writer, Web developer

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How to Research

Define a topic.

• Library Resources
• Web Resources
• Evaluate for Quality
• Research Tips & Search Strategies
• Academic Integrity
• Citation Styles
• Annotated Bibliography

• Understand assignment requirements .
• Select a topic for their research paper.
• Formulate a research question.
• Narrow or broaden a research question.
• Determine keywords and brainstorm search terms .

   If you are unsure about what is expected about your assignment, consult with your instructor.

Step 1: Understand Your Assignment

Understand your assignment.

Before setting out to complete an assignment, get to know what is required. Parts of the assignment description students should look for include:

• Due date. Plan out an adequate amount of time to learn about your assignment, conduct research, create citations, and write.
• Length. The length of an assignment will give you an idea of how much research you will need to do.
• Citation Style. It will give you an idea of how to format your assignment (e.g., single-spaced, double-spaced, font, etc.) and create references (e.g., APA Style). If this information is not present in your assignment description, check your course outline.
• Sources. This includes the number of sources and types of sources you will need to complete the assignment sufficiently (e.g., scholarly sources).

Assignment descriptions also provide useful context or background information that will help you with identifying a topic.

Source: Niagara College Libraries + Learning Commons Information Skills Online Handbook

Step 2: Select a Research Topic

• a) Topic Selection
• b) Background Research
• c) Research Question
• d) Assess Your Topic

Select a Topic

Carefully read over your assignment description.

• Have you been provided with options for topics or do you need to come up with your own topic?
• Is there something that is happening in the news that interests you?
• Is there something you have learned about in your studies that you would like to explore further?
• If you have any questions, ask your professor for clarification.

When selecting your topic, ask yourself these questions:

• WHY did you choose the topic? What interests you about it? Do you have an opinion about the issues involved?
• WHO  are the information providers on this topic? Who might publish information about it? Who is affected by the topic? Do you know of organizations or institutions affiliated with the topic?
• WHAT are the major questions for this topic? Is there a debate about the topic? Are there a range of issues and viewpoints to consider?
• WHERE is your topic important: at the local, national, or international level? Are there specific places affected by the topic?
• WHEN is/was your topic important? Is it a current event or an historical issue? Do you want to compare your topic by time periods?

Content reproduced from  MIT.edu   under a  Creative Commons Attribution Non-Commercial License

Background Research

Start researching your topic.

This process helps give you some background information about your topic prior to formulating your research question.

• Review your lecture notes and/or course readings for background information.
• You can use Wikipedia for your preliminary research - it often provides a concise overview of the topic with helpful links to open access (freely accessible) journal articles and resources. Do not cite Wikipedia articles in your final paper; however, sources cited on Wikipedia pages are free game (use our evaluation criteria before you cite!).
• Library subscribed  databases .
• A reputable encyclopedia: Encyclopedia Britannica or Funk and Wagnalls New World Encyclopedia .
• A major article on the topic.
• Library research guides .
• Books (and eBooks) on the subject.

Develop a Research Question

Once a topic has been selected and you have performed some background research, you can start developing a research question. 

Why Create a Research Question?

Research questions "help writers focus their research by providing a path through the research and writing process. The specificity of a well-developed research question helps writers avoid the 'all-about' paper and work toward supporting a specific, arguable thesis" (The Writing Center) .

Creating a Research Question

A good research question will require you to analyze an issue or problem. Developing a research question that asks about how or why tends to be more useful than a research question that asks what or describe questions (Monash University) .

You have already asked yourself the 5Ws in step a (Why, Who, What, Where, and When), next ask yourself:

• Is my research question clear and focused? Does your research question clearly state what you intend to research?
• Is my research question complex? Your question should not be able to be answered with a 'yes' or a 'no', but it also should not be too difficult to answer.
• Is my research question researchable? Are there enough resources available to answer your research question?

Sample Research Questions

Sample Research Questions from Indiana University Library

Assess Your Topic

Narrow your topic.

• If your topic is too broad, there will be too many resources for you to sift through.
• Limit your topic to a particular approach to the issue.
• Consider only one piece, or sub-area, of the subject.
• Limit the time span you examine.
• Limit by age, sex, race, occupation, species, or ethnic group.
• Limit by geographical location.

Content reproduced/adapted from  MIT.edu   under a  Creative Commons Attribution Non-Commercial License

Broaden Your Topic

• Broadening the scope of your topic by generalizing what you are looking for.
• Adjusting your topic to something that has been extensively written about if your topic is very new.
• Broadening the scope of language used in search terms. A great way to accomplish this is to include commonly used words (keywords) from your background research. Also, consider using a thesaurus to find synonyms to represent your topic.

Content reproduced/adapted from    under a  Creative Commons Attribution Non-Commercial License

Step 3: Create Keywords, Search Terms, & Thesis

• a) Determine Keywords
• b) Brainstorming Search Terms
• c) Searching
• d) Reassess Research Question

Determining Keywords

It will be easier to find information if you define your topic and identify the key concepts.

Step A) Take a look at your research question and ask yourself, what are the main concepts? These main concepts will become your keywords. 

The research question:

Keywords that describe this topic could include:

From this example, we have highlighted just the key words:

• Today's youth 
• Parents 
• "Better life" (this concept is a bit tricky. You will need to determine what you mean by "better life", such as economic status, healthcare, area of the world, etc.)

We have left out all other words and punctuation (do, have, a, than, their, ?) from our key words.

Brainstorming Search Terms 

Step B) Think of all the words, or synonyms , you can use to describe these keywords. By definition, synonyms are words that have a similar meaning and are interchangeable. To make this process easier, use a thesaurus to find synonyms.

To show this process, we have mapped out several synonyms and related terms to our three main terms we pulled from our research question. Related terms are a little different from synonyms as they do not always mean the exact same thing as the keywords, but are useful for broadening the scope of your search. We have also broken several terms into narrower and broad terms.

Synonyms & Related Terms

• Today's youth = teenagers = adolescents = young adults = Generation Z
• Parents = caregivers = mother = father
• "Better Life" = education = healthcare = finances = socioeconomic status = technology

Narrower Terms

• Education level < Education 
• Financial well-being < Finances

Broad Terms

• Finances > Debt
• Wealth > Income

Step C) Now that we have identified our main keywords, synonyms and related terms, as well as narrower and broad terms, we can start our background research by  searching on the web or in  library databases for resources related to our topic.

Often, a simple Google search will help you define your topic further.

Typing in our research question:  Do today's youth have a better life than their parents?  into the search bar of Google, we come across a very helpful resource put out by Pew Research Center .

[click on above image of a Google search to be sent to the Google results page]

Using resources such as the report from Pew Research Center, we can flesh out more of our research question with new knowledge of the factors that make life different between generations, including education level, income and wealth, housing, etc.

Reassess Research Question & Formulate Thesis

Step D)  Research is an ever-evolving, iterative process. After searching, you may find information that informs your research question and/or resulting search terms. At this point, you may wish to revisit the first two steps: Determining Keywords and Brainstorming Search Terms.

Alternatively, you may also choose to adapt your research question  into a thesis to fit this new information.

Example: 

Our original research question was: 

Based on some of our introductory research we conducted in Step C, it may be more valuable to narrow our research question to focus on a more specific topic, such as access to education. We can rework our research question into a thesis to reflect these changes:

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How to Establish a Research Topic: Easy Writing Tips

Last Updated: December 15, 2022 Fact Checked

This article was co-authored by Alexander Ruiz, M.Ed. . Alexander Ruiz is an Educational Consultant and the Educational Director of Link Educational Institute, a tutoring business based in Claremont, California that provides customizable educational plans, subject and test prep tutoring, and college application consulting. With over a decade and a half of experience in the education industry, Alexander coaches students to increase their self-awareness and emotional intelligence while achieving skills and the goal of achieving skills and higher education. He holds a BA in Psychology from Florida International University and an MA in Education from Georgia Southern University. There are 9 references cited in this article, which can be found at the bottom of the page. This article has been fact-checked, ensuring the accuracy of any cited facts and confirming the authority of its sources. This article has been viewed 109,883 times.

With a world of possibilities out there, choosing a research topic can be a daunting task. However, selecting a worthy subject is half the battle when it comes to producing valuable original research. If you take some time to attentively brainstorm possibilities and refine them down into a solid, focused research question, you’ll come away with a topic that’s manageable, worthwhile, and, most importantly, interesting to you.

Picking a Topic

• One way to ensure you have a topic that’s of interest to you to pick a subject to which you have a personal connection. For instance, if your sister has Crohn's Disease, you may be interested in investigating it. Or, if you went on an exchange program to Croatia, you might be keen to know more about its history or culture.
• Another way to trim down your possibilities is to see if there any patterns that emerge from the longer list. For example, if you wrote down “Gertrude Stein” and “Djuna Barnes,” you could focus on lesbian expat authors.

• You want to choose a topic that has some, but not too much information available on it. If there are some substantive related resources out there, you know you’re on the right track; if there are pages and pages of relevant search results, you can tell that plenty of people have already gone down that road or that the topic is likely too big to cover and you will need to narrow it further.

• For instance, if you are interested in the mapping of the human genome, read about the general history of the scientific advances that have allowed us to map DNA and see if there’s a particular subtopic that catches your eye. Instead of trying to cover the entire subject, limit your scope to focus on the discovery of a gene related to a specific trait or disease or on a particular application, like the regulation of gene therapy for unborn fetuses.

Kim Gillingham, MA

Use your interests to narrow your focus. Retired librarian, Kim Gillingham, adds: "You can start with a general topic such as Outer Space. Then ask yourself specific questions such as 'What am I interested in about Outer Space?' It could be the history of space exploration, the technology of space exploration, or 'Is Pluto a planet or not?' As always, librarians can be of immense help in narrowing down a topic through a technique called the Reference Interview — try asking your librarian about it!"

• When you meet with or email them, explain the research that you’ve already conducted to show them that you’ve done your homework. Then, ask something like, “I’m most interested in looking into coming of age rituals in contemporary indigenous cultures, and I was wondering if you think that’s a good topic to pursue and if you had any suggestions for specific case studies or other resources related to it.”
• Remember: they may be able to point you in a more specific direction based on your general interests, but don’t expect them to do the whole selection process for you.
• If you’re doing independent research to earn a degree (rather than to fulfill the requirements of a particular class), you should also ask them about the potential marketability of your subject since your topic will be setting the direction for your future career.

Developing Your Research Question

• After you conduct your preliminary research, think about the gaps that you noticed in the information available on the subject that you’ve been investigating. Devise a question that could address that missing information.
• One concrete way to do this is to explore the relationship between two ideas, concepts, phenomena, or events that came up in your research but whose relationship has not been fully investigated. For example, “how did political radicals influence popular representations of sexuality in the 1920s United States?”
• Another concrete way to formulate your question is to consider how an existing methodology or concept applies to a new, specific context or case study. For instance, you could think of how Sigmund Freud’s idea of the “appendage” applies to a specific virtual reality game.

• For example, if your question requires conducting a study that’s not feasible given your timeframe or the resources available to you, then you need to find a way to revise your question so that you can answer it.
• Sometimes if your topic is too new, there won’t be a substantial enough body of research available for you to do a comprehensive analysis of it. In that case, you may need to revise or broaden your question so that you can actually answer it. [5] X Research source

• If your question is not narrow enough, refine your focus further by limiting your topic according to a given historical era, theoretical approach, geographical region, demographic or culture, industry or field. For example, if you’re interested in refugees, you might limit your scope by honing in on a particular event (World War II) and/or time period (the 1940s), a specific location (England) and/or population (Jewish people from Austria). [6] X Research source

Making Sure that You’re on the Right Track

• You might have a brilliant research question, but, if it’s about genetic disorders and the grant you’re applying for only funds research on communicable diseases, you’ll need to go back to the drawing board.
• Also be sure to take the required length of the project into consideration. For instance, if your question is too narrow or specific, you might not be able to hit the 250-page requirement for a doctoral thesis.

• Start by listing the various research methods that you’ll use, such as a literature review, interviews, and qualitative analysis. Then, create a timeline for when you’ll be doing each kind of research, being sure to leave enough time for yourself to complete the writing.

• You can order topics chronologically (for instance, if you’re studying a historical event). Most often, you’ll order them according to the progression of your argument, with one idea building on the last.
• Your research may change the structure or content of your outline, but it’s still useful to have a well-developed starting point.

Community Q&A

• If you have no idea of where to begin, consider going through old notes and textbooks or speaking to classmates to get some inspiration. Or, browse through the most recently published journals in your field to see what the latest trends in research are. Thanks Helpful 1 Not Helpful 0

• Since research is a demanding process, the most important thing is that you choose a topic that will sustain your enthusiasm and curiosity. Thanks Helpful 5 Not Helpful 1

You Might Also Like

• ↑ https://writingcenter.unc.edu/tips-and-tools/brainstorming/
• ↑ http://libguides.mit.edu/select-topic
• ↑ https://bowvalleycollege.libguides.com/research-help/topics
• ↑ https://libraries.indiana.edu/sites/default/files/Develop_a_Research_Question.pdf
• ↑ http://libguides.mit.edu/c.php?g=175961&p=1160160#s-lg-box-wrapper-4114979
• ↑ http://libguides.mit.edu/c.php?g=175961&p=1160160#791450
• ↑ https://files.bucknell.edu/Documents/ISR/topic.pdf
• ↑ Alexander Ruiz, M.Ed.. Educational Consultant. Expert Interview. 18 June 2020.
• ↑ http://libguides.usc.edu/writingguide/outline

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How to Do Research: A Step-By-Step Guide: Step 1: Develop a Topic

• Get Started
• 1a. Select a Topic
• 1b. Develop Research Questions
• 1c. Identify Keywords
• 1d. Find Background Information
• 1e. Refine a Topic
• 2a. Search Strategies
• 2d. Articles
• 2e. Videos & Images
• 2f. Databases
• 2g. Websites
• 2h. Grey Literature
• 2i. Open Access Materials
• 3a. Evaluate Sources
• 3b. Primary vs. Secondary
• 3c. Types of Periodicals
• 4a. Take Notes
• 4b. Outline the Paper
• 4c. Incorporate Source Material
• 5a. Avoid Plagiarism
• 5b. Zotero & MyBib
• 5c. MLA Formatting
• 5d. MLA Citation Examples
• 5e. APA Formatting
• 5f. APA Citation Examples
• 5g. Annotated Bibliographies

Developing a Topic

Developing a good research question can sometimes be the most difficult part of the research process. If you are struggling, follow the links below.

• Select a topic
• Develop research questions
• Identify keywords
• Find background information
• Refine your topic

Choosing a Topic - Video Overview

Video has been posted with permission from Pfau Library, California State University-San Bernardino.

• << Previous: Get Started
• Next: 1a. Select a Topic >>
• Last Updated: Feb 21, 2024 11:01 AM
• URL: https://libguides.elmira.edu/research

Research Process: An Overview: Refining Your Topic

• Choosing a Topic
• Refining Your Topic
• Finding Information
• Evaluating Your Sources
• Database Searching
• APA Citation This link opens in a new window

TIP: Be Flexible

It is common to modify your topic during the research process. You can never be sure of what you may find. You may find too much and need to narrow your focus, or too little and need to broaden your focus. This is a normal part of the research process. When researching, you may not wish to change your topic, but you may decide that some other aspect of the topic is more interesting or manageable.

Steps to Refining Your Topic

Once you have chosen a general topic idea the next step is to refine your topic and ulitmately to formulate a research question.

Consider the points below to keep your research focused and on track.  If you continue to have difficulties defining a topic talk to your instructor or a librarian.

The Research Question

Once you have the topic you would like to research, the next step is forming your research question. Your research question should be focused and specifc.  The result should also be a question for which there are two or more possible answers.  See some examples below:

Assignment Guidelines

Before selecting your topic, make sure you know what your final project should look like. Each instructor will probably have different assignment requirements so be sure to read your assignment thoroughly and check for specific guidelines concerning:

• The number of sources you are required to use
• The kinds of sources are you able to use - books vs. web sites vs. journal articles or a variety?
• The type of research you are you being asked to conduct. - original research or review what research has been done?
• The length of your final project - two-pages, ten pages, etc. or an informal, five minute presentation?
• The depth of your project - Is your project an overview of the subject or in-depth and focused coverage of a specific aspect?
• The scope you are required to cover - Is this an historical summary or a report of current developments?

You instructor will probably provide specific requirements for your assignment, if not the table below may provide a rough guide:

Assigning Limits to Your Topic

A topic will be very difficult to research if it is too broad or narrow. One way to narrow a broad topic is to assign limits to what you will cover. Some common ways to limit a topic are listed below using the broad topic, "the environment" as an example.

Remember that a topic may be too difficult to research if it is too:

• locally confined - Topics this specific may only be covered in these (local) newspapers, if at all.

Example: What sources of pollution affect the Genesee County water supply?

• recent - If a topic is quite recent, books or journal articles may not be available, but newspaper or magazine articles may. Also, Web sites related to the topic may or may not be available.
• broadly interdisciplinary - You could be overwhelmed with superficial information.

Example: How can the environment contribute to the culture, politics and society of the Western states?

• << Previous: Choosing a Topic
• Next: Finding Information >>
• Last Updated: Jan 8, 2024 1:44 PM
• URL: https://ggu.libguides.com/research

• Boston University Libraries

Choosing a Research Topic

• Starting Points

Where to Find Ideas

Persuasive paper assignments, dissertations and theses.

• From Idea to Search
• Make It Manageable

If you are starting a research project and would like some help choosing the best topic, this guide is for you.  Start by asking yourself these questions:

What does your instructor require? What interests you? What information sources can support your research? What is doable in the time you have?

While keeping these questions in mind, find suggestions in this guide to select a topic, turn that topic into a database search, and make your research manageable.  You will also find more information in our About the Research Process guide.

Whether your instructor has given a range of possible topics to you or you have to come up with a topic on your own, you could benefit from these activities:  

Consult Course Materials If a reading, film, or other resource is selected by your instructor, the subject of it is important to the course. You can often find inspiration for a paper in these materials.

• Is a broad topic presented?  You can focus on a specific aspect of that topic.  For example, if your class viewed a film on poverty in the United States, you could look at poverty in a specific city or explore how poverty affects Americans of a specific gender, ethnic group, or age range.
• Are experts presented, quoted, or cited?  Look up their work in BU Libraries Search or Google Scholar .

Use Background Sources If you've identified one or more topics you'd like to investigate further, look them up in an encyclopedia, handbook, or other background information source.  Here are some good places to start.

• Britannica Academic This link opens in a new window Online version of Encyclopædia Britannica along Merriam-Webster’s Collegiate Dictionary and Thesaurus, magazines and periodicals and other reference sources.
• Oxford Reference This link opens in a new window Published by Oxford University Press, it is a fully-indexed, cross-searchable database containing dictionaries, language reference and subject reference works.

Explore the Scholarly Literature Ask your instructor or a librarian to guide you to the top journals in the field you're studying.  Scanning the tables of contents within these journals will provide some inspiration for your research project.  As a bonus, each of the articles in these journals will have a bibliography that will lead you to related articles, books, and other materials.

Ask a Librarian We are here to help you!  You can request a consultation or contact us by email or through our chat service .  We can help you identify what interests you, where to find more about it, and how to narrow the topic to something manageable in the time you have.

If your assignment entails persuading a reader to adopt a position, you can conduct your research in the same way you would with any other research project. The biggest mistake you can make, however, is choosing a position before you start your research.   Instead, the information you consult should inform your position.  Researching before choosing a position is also much easier; you will be able to explore all sides of a topic rather than limiting yourself to one.

If you would like examples of debates on controversial topics, try these resources:

• CQ Researcher This link opens in a new window Covers the most current and controversial issues of the day with summaries, pros and cons, bibliographies and more. Provides reporting and analysis on issues in the news, including coverage of issues relating to health, social trends, criminal justice, international affairs, education, the environment, technology, and the economy.
• New York Times: Room for Debate Selections from the New York Times' opinion pages.
• ProCon.org Created by Britannica, this site exposes readers to two sides of timely arguments. Each article includes a bibliography of suggested resources.

If you are writing a dissertation or thesis, you will find more specialized information at our Guide for Writers of Theses and Dissertations .

If you would like to find published dissertations and theses, please use this database:

This database contains indexing and abstracts of American doctoral dissertations accepted at accredited institutions since 1861 and a selection from other countries. Masters theses are included selectively. Date coverage: full text 1997 - present; abstracts 1980 - present; indexing 1861 - present.

• Next: From Idea to Search >>
• Last Updated: Sep 7, 2023 3:45 PM
• URL: https://library.bu.edu/choosing-a-topic

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• Knowledge Base

Methodology

• What Is a Research Design | Types, Guide & Examples

What Is a Research Design | Types, Guide & Examples

Published on June 7, 2021 by Shona McCombes . Revised on November 20, 2023 by Pritha Bhandari.

A research design is a strategy for answering your   research question  using empirical data. Creating a research design means making decisions about:

• Your overall research objectives and approach
• Whether you’ll rely on primary research or secondary research
• Your sampling methods or criteria for selecting subjects
• Your data collection methods
• The procedures you’ll follow to collect data
• Your data analysis methods

A well-planned research design helps ensure that your methods match your research objectives and that you use the right kind of analysis for your data.

Table of contents

Step 1: consider your aims and approach, step 2: choose a type of research design, step 3: identify your population and sampling method, step 4: choose your data collection methods, step 5: plan your data collection procedures, step 6: decide on your data analysis strategies, other interesting articles, frequently asked questions about research design.

• Introduction

Before you can start designing your research, you should already have a clear idea of the research question you want to investigate.

There are many different ways you could go about answering this question. Your research design choices should be driven by your aims and priorities—start by thinking carefully about what you want to achieve.

The first choice you need to make is whether you’ll take a qualitative or quantitative approach.

Qualitative research designs tend to be more flexible and inductive , allowing you to adjust your approach based on what you find throughout the research process.

Quantitative research designs tend to be more fixed and deductive , with variables and hypotheses clearly defined in advance of data collection.

It’s also possible to use a mixed-methods design that integrates aspects of both approaches. By combining qualitative and quantitative insights, you can gain a more complete picture of the problem you’re studying and strengthen the credibility of your conclusions.

Practical and ethical considerations when designing research

As well as scientific considerations, you need to think practically when designing your research. If your research involves people or animals, you also need to consider research ethics .

• How much time do you have to collect data and write up the research?
• Will you be able to gain access to the data you need (e.g., by travelling to a specific location or contacting specific people)?
• Do you have the necessary research skills (e.g., statistical analysis or interview techniques)?
• Will you need ethical approval ?

At each stage of the research design process, make sure that your choices are practically feasible.

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See an example

Within both qualitative and quantitative approaches, there are several types of research design to choose from. Each type provides a framework for the overall shape of your research.

Types of quantitative research designs

Quantitative designs can be split into four main types.

• Experimental and   quasi-experimental designs allow you to test cause-and-effect relationships
• Descriptive and correlational designs allow you to measure variables and describe relationships between them.

With descriptive and correlational designs, you can get a clear picture of characteristics, trends and relationships as they exist in the real world. However, you can’t draw conclusions about cause and effect (because correlation doesn’t imply causation ).

Experiments are the strongest way to test cause-and-effect relationships without the risk of other variables influencing the results. However, their controlled conditions may not always reflect how things work in the real world. They’re often also more difficult and expensive to implement.

Types of qualitative research designs

Qualitative designs are less strictly defined. This approach is about gaining a rich, detailed understanding of a specific context or phenomenon, and you can often be more creative and flexible in designing your research.

The table below shows some common types of qualitative design. They often have similar approaches in terms of data collection, but focus on different aspects when analyzing the data.

Your research design should clearly define who or what your research will focus on, and how you’ll go about choosing your participants or subjects.

In research, a population is the entire group that you want to draw conclusions about, while a sample is the smaller group of individuals you’ll actually collect data from.

Defining the population

A population can be made up of anything you want to study—plants, animals, organizations, texts, countries, etc. In the social sciences, it most often refers to a group of people.

For example, will you focus on people from a specific demographic, region or background? Are you interested in people with a certain job or medical condition, or users of a particular product?

The more precisely you define your population, the easier it will be to gather a representative sample.

• Sampling methods

Even with a narrowly defined population, it’s rarely possible to collect data from every individual. Instead, you’ll collect data from a sample.

To select a sample, there are two main approaches: probability sampling and non-probability sampling . The sampling method you use affects how confidently you can generalize your results to the population as a whole.

Probability sampling is the most statistically valid option, but it’s often difficult to achieve unless you’re dealing with a very small and accessible population.

For practical reasons, many studies use non-probability sampling, but it’s important to be aware of the limitations and carefully consider potential biases. You should always make an effort to gather a sample that’s as representative as possible of the population.

Case selection in qualitative research

In some types of qualitative designs, sampling may not be relevant.

For example, in an ethnography or a case study , your aim is to deeply understand a specific context, not to generalize to a population. Instead of sampling, you may simply aim to collect as much data as possible about the context you are studying.

In these types of design, you still have to carefully consider your choice of case or community. You should have a clear rationale for why this particular case is suitable for answering your research question .

For example, you might choose a case study that reveals an unusual or neglected aspect of your research problem, or you might choose several very similar or very different cases in order to compare them.

Data collection methods are ways of directly measuring variables and gathering information. They allow you to gain first-hand knowledge and original insights into your research problem.

You can choose just one data collection method, or use several methods in the same study.

Survey methods

Surveys allow you to collect data about opinions, behaviors, experiences, and characteristics by asking people directly. There are two main survey methods to choose from: questionnaires and interviews .

Observation methods

Observational studies allow you to collect data unobtrusively, observing characteristics, behaviors or social interactions without relying on self-reporting.

Observations may be conducted in real time, taking notes as you observe, or you might make audiovisual recordings for later analysis. They can be qualitative or quantitative.

Other methods of data collection

There are many other ways you might collect data depending on your field and topic.

If you’re not sure which methods will work best for your research design, try reading some papers in your field to see what kinds of data collection methods they used.

Secondary data

If you don’t have the time or resources to collect data from the population you’re interested in, you can also choose to use secondary data that other researchers already collected—for example, datasets from government surveys or previous studies on your topic.

With this raw data, you can do your own analysis to answer new research questions that weren’t addressed by the original study.

Using secondary data can expand the scope of your research, as you may be able to access much larger and more varied samples than you could collect yourself.

However, it also means you don’t have any control over which variables to measure or how to measure them, so the conclusions you can draw may be limited.

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As well as deciding on your methods, you need to plan exactly how you’ll use these methods to collect data that’s consistent, accurate, and unbiased.

Planning systematic procedures is especially important in quantitative research, where you need to precisely define your variables and ensure your measurements are high in reliability and validity.

Operationalization

Some variables, like height or age, are easily measured. But often you’ll be dealing with more abstract concepts, like satisfaction, anxiety, or competence. Operationalization means turning these fuzzy ideas into measurable indicators.

If you’re using observations , which events or actions will you count?

If you’re using surveys , which questions will you ask and what range of responses will be offered?

You may also choose to use or adapt existing materials designed to measure the concept you’re interested in—for example, questionnaires or inventories whose reliability and validity has already been established.

Reliability and validity

Reliability means your results can be consistently reproduced, while validity means that you’re actually measuring the concept you’re interested in.

For valid and reliable results, your measurement materials should be thoroughly researched and carefully designed. Plan your procedures to make sure you carry out the same steps in the same way for each participant.

If you’re developing a new questionnaire or other instrument to measure a specific concept, running a pilot study allows you to check its validity and reliability in advance.

Sampling procedures

As well as choosing an appropriate sampling method , you need a concrete plan for how you’ll actually contact and recruit your selected sample.

That means making decisions about things like:

• How many participants do you need for an adequate sample size?
• What inclusion and exclusion criteria will you use to identify eligible participants?
• How will you contact your sample—by mail, online, by phone, or in person?

If you’re using a probability sampling method , it’s important that everyone who is randomly selected actually participates in the study. How will you ensure a high response rate?

If you’re using a non-probability method , how will you avoid research bias and ensure a representative sample?

Data management

It’s also important to create a data management plan for organizing and storing your data.

Will you need to transcribe interviews or perform data entry for observations? You should anonymize and safeguard any sensitive data, and make sure it’s backed up regularly.

Keeping your data well-organized will save time when it comes to analyzing it. It can also help other researchers validate and add to your findings (high replicability ).

On its own, raw data can’t answer your research question. The last step of designing your research is planning how you’ll analyze the data.

Quantitative data analysis

In quantitative research, you’ll most likely use some form of statistical analysis . With statistics, you can summarize your sample data, make estimates, and test hypotheses.

Using descriptive statistics , you can summarize your sample data in terms of:

• The distribution of the data (e.g., the frequency of each score on a test)
• The central tendency of the data (e.g., the mean to describe the average score)
• The variability of the data (e.g., the standard deviation to describe how spread out the scores are)

The specific calculations you can do depend on the level of measurement of your variables.

Using inferential statistics , you can:

• Make estimates about the population based on your sample data.
• Test hypotheses about a relationship between variables.

Regression and correlation tests look for associations between two or more variables, while comparison tests (such as t tests and ANOVAs ) look for differences in the outcomes of different groups.

Your choice of statistical test depends on various aspects of your research design, including the types of variables you’re dealing with and the distribution of your data.

Qualitative data analysis

In qualitative research, your data will usually be very dense with information and ideas. Instead of summing it up in numbers, you’ll need to comb through the data in detail, interpret its meanings, identify patterns, and extract the parts that are most relevant to your research question.

Two of the most common approaches to doing this are thematic analysis and discourse analysis .

There are many other ways of analyzing qualitative data depending on the aims of your research. To get a sense of potential approaches, try reading some qualitative research papers in your field.

If you want to know more about the research process , methodology , research bias , or statistics , make sure to check out some of our other articles with explanations and examples.

• Simple random sampling
• Stratified sampling
• Cluster sampling
• Likert scales
• Reproducibility

 Statistics

• Null hypothesis
• Statistical power
• Probability distribution
• Effect size
• Poisson distribution

Research bias

• Optimism bias
• Cognitive bias
• Implicit bias
• Hawthorne effect
• Anchoring bias
• Explicit bias

A research design is a strategy for answering your   research question . It defines your overall approach and determines how you will collect and analyze data.

A well-planned research design helps ensure that your methods match your research aims, that you collect high-quality data, and that you use the right kind of analysis to answer your questions, utilizing credible sources . This allows you to draw valid , trustworthy conclusions.

Quantitative research designs can be divided into two main categories:

• Correlational and descriptive designs are used to investigate characteristics, averages, trends, and associations between variables.
• Experimental and quasi-experimental designs are used to test causal relationships .

Qualitative research designs tend to be more flexible. Common types of qualitative design include case study , ethnography , and grounded theory designs.

The priorities of a research design can vary depending on the field, but you usually have to specify:

• Your research questions and/or hypotheses
• Your overall approach (e.g., qualitative or quantitative )
• The type of design you’re using (e.g., a survey , experiment , or case study )
• Your data collection methods (e.g., questionnaires , observations)
• Your data collection procedures (e.g., operationalization , timing and data management)
• Your data analysis methods (e.g., statistical tests  or thematic analysis )

A sample is a subset of individuals from a larger population . Sampling means selecting the group that you will actually collect data from in your research. For example, if you are researching the opinions of students in your university, you could survey a sample of 100 students.

In statistics, sampling allows you to test a hypothesis about the characteristics of a population.

Operationalization means turning abstract conceptual ideas into measurable observations.

For example, the concept of social anxiety isn’t directly observable, but it can be operationally defined in terms of self-rating scores, behavioral avoidance of crowded places, or physical anxiety symptoms in social situations.

Before collecting data , it’s important to consider how you will operationalize the variables that you want to measure.

A research project is an academic, scientific, or professional undertaking to answer a research question . Research projects can take many forms, such as qualitative or quantitative , descriptive , longitudinal , experimental , or correlational . What kind of research approach you choose will depend on your topic.

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Regions & Countries

What’s it like to be a teacher in america today, public k-12 teachers are stressed about their jobs and few are optimistic about the future of education; many say poverty, absenteeism and mental health are major problems at their school.

Pew Research Center conducted this study to better understand the views and experiences of public K-12 school teachers. The analysis in this report is based on an online survey of 2,531 U.S. public K-12 teachers conducted from Oct. 17 to Nov. 14, 2023. The teachers surveyed are members of RAND’s American Teacher Panel, a nationally representative panel of public K-12 school teachers recruited through MDR Education. Survey data is weighted to state and national teacher characteristics to account for differences in sampling and response to ensure they are representative of the target population.

Here are the questions used for this report , along with responses, and the survey methodology .

Low-poverty , medium-poverty and high-poverty schools are based on the percentage of students eligible for free and reduced-price lunch, as reported by the National Center for Education Statistics (less than 40%, 40%-59% and 60% or more, respectively).

Secondary schools include both middle schools and high schools.

All references to party affiliation include those who lean toward that party. Republicans include those who identify as Republicans and those who say they lean toward the Republican Party. Democrats include those who identify as Democrats and those who say they lean toward the Democratic Party.

Public K-12 schools in the United States face a host of challenges these days – from teacher shortages to the lingering effects of COVID-19 learning loss to political battles over curriculum .

In the midst of all this, teachers express low levels of satisfaction with their jobs. In fact, they’re much less satisfied than U.S. workers overall.

Here’s how public K-12 teachers are feeling about their jobs:

• 77% say their job is frequently stressful.
• 68% say it’s overwhelming.
• 70% say their school is understaffed.
• 52% say they would not advise a young person starting out today to become a teacher.

When it comes to how their students are doing in school, teachers are relatively downbeat about both academic performance and behavior.

Here’s how public K-12 teachers rate academic performance and behavior at their school:

• 48% say the academic performance of most students at their school is fair or poor. A third say it’s good, and only 17% describe it as excellent or very good.
• 49% say the behavior of most students at their school is fair or poor; 35% say it’s good and 13% say it’s excellent or very good.

The COVID-19 pandemic likely compounded these issues. About eight-in-ten teachers (among those who have been teaching for at least a year) say the lasting impact of the pandemic on students’ behavior, academic performance and emotional well-being has been very or somewhat negative.

Assessments of student performance and behavior differ widely by school poverty level. 1 Teachers in high-poverty schools have a much more negative outlook. But feelings of stress and dissatisfaction among teachers are fairly universal, regardless of where they teach.

Related: What Public K-12 Teachers Want Americans To Know About Teaching

As they navigate these challenges, teachers don’t feel they’re getting the support or reinforcement they need from parents.

Majorities of teachers say parents are doing too little when it comes to holding their children accountable if they misbehave in school, helping them with their schoolwork and ensuring their attendance.

Teachers in high- and medium-poverty schools are more likely than those in low-poverty schools to say parents are doing too little in each of these areas.

These findings are based on a survey of 2,531 U.S. public K-12 teachers conducted Oct. 17-Nov. 14, 2023, using the RAND American Teacher Panel. 2 The survey looks at the following aspects of teachers’ experiences:

• Teachers’ job satisfaction (Chapter 1)
• How teachers manage their workload (Chapter 2)
• Problems students are facing at public K-12 schools (Chapter 3)
• Challenges in the classroom (Chapter 4)
• Teachers’ views of parent involvement (Chapter 5)
• Teachers’ views on the state of public K-12 education (Chapter 6)

Problems students are facing

We asked teachers about some of the challenges students at their school are facing. Three problems topped the list:

• Poverty (53% say this is a major problem among students who attend their school)
• Chronic absenteeism (49%)
• Anxiety and depression (48%)

Chronic absenteeism (that is, students missing a substantial number of school days) is a particular challenge at high schools, with 61% of high school teachers saying this is a major problem where they teach. By comparison, 46% of middle school teachers and 43% of elementary school teachers say the same.

Anxiety and depression are viewed as a more serious problem at the secondary school level: 69% of high school teachers and 57% of middle school teachers say this is a major problem among their students, compared with 29% of elementary school teachers.

Fewer teachers (20%) view bullying as a major problem at their school, though the share is significantly higher among middle school teachers (34%).

A look inside the classroom

We also asked teachers how things are going in their classroom and specifically about some of the issues that may get in the way of teaching.

• 47% of teachers say students showing little or no interest in learning is a major problem in their classroom. The share rises to 58% among high school teachers.
• 33% say students being distracted by their cellphones is a major problem. This is particularly an issue for high school teachers, with 72% saying this is a major problem.
• About one-in-five teachers say students getting up and walking around when they’re not supposed to and being disrespectful toward them (21% each) are major problems. Teachers in elementary and middle schools are more likely than those in high schools to see these as challenges.

A majority of teachers (68%) say they’ve experienced verbal abuse from a student – such as being yelled at or threatened. Some 21% say this happens at least a few times a month.

Physical violence is less common. Even so, 40% of teachers say a student has been violent toward them , with 9% saying this happens at least a few times a month.

About two-thirds of teachers (66%) say that the current discipline practices at their school are very or somewhat mild. Only 2% say the discipline practices at their school are very or somewhat harsh, while 31% say they are neither harsh nor mild. Most teachers (67%) say teachers themselves don’t have enough influence in determining discipline practices at their school.

Behavioral issues and mental health challenges

In addition to their teaching duties, a majority of teachers (58%) say they have to address behavioral issues in their classroom every day. About three-in-ten teachers (28%) say they have to help students with mental health challenges daily.

In each of these areas, elementary and middle school teachers are more likely than those at the high school level to say they do these things on a daily basis.

And teachers in high-poverty schools are more likely than those in medium- and low-poverty schools to say they deal with these issues each day.

Cellphone policies and enforcement

Most teachers (82%) say their school or district has policies regarding cellphone use in the classroom.

Of those, 56% say these policies are at least somewhat easy to enforce, 30% say they’re difficult to enforce, and 14% say they’re neither easy nor difficult to enforce.

Experiences with cellphone policies vary widely across school levels. High school teachers (60%) are much more likely than middle school (30%) and elementary school teachers (12%) to say the policies are difficult to enforce (among those who say their school or district has a cellphone policy).

How teachers are experiencing their jobs

Thinking about the various aspects of their jobs, teachers are most satisfied with their relationship with other teachers at their school (71% are extremely or very satisfied).

They’re least satisfied with how much they’re paid – only 15% are extremely or very satisfied with their pay, while 51% are not too or not at all satisfied.

Among teachers who don’t plan to retire or stop working this year, 29% say it’s at least somewhat likely they will look for a new job in the 2023-24 school year. Within that group, 40% say they would look for a job outside of education, 29% say they’d seek a non-teaching job in education, and only 18% say they’d look for a teaching job at another public K-12 school.

Do teachers find their work fulfilling and enjoyable?

Overall, 56% of teachers say they find their job to be fulfilling extremely often or often; 53% say their job is enjoyable. These are significantly lower than the shares who say their job is frequently stressful (77%) or overwhelming (68%).

Positive experiences are more common among newer teachers. Two-thirds of those who’ve been teaching less than six years say their work is fulfilling extremely often or often, and 62% of this group says their work is frequently enjoyable.

Teachers with longer tenures are somewhat less likely to feel this way. For example, 48% of those who’ve been teaching for six to 10 years say their work is frequently enjoyable.

Balancing the workload

Most teachers (84%) say there’s not enough time during their regular work hours to do tasks like grading, lesson planning, paperwork and answering work emails.

Among those who feel this way, 81% say simply having too much work is a major reason.

Many also point to having to spend time helping students outside the classroom, performing non-teaching duties like lunch duty, and covering other teachers’ classrooms as at least minor reasons they don’t have enough time to get all their work done.

A majority of teachers (54%) say it’s very or somewhat difficult for them to balance work and their personal life. About one-in-four (26%) say it’s very or somewhat easy for them to balance these things, and 20% say it’s neither easy nor difficult.

Among teachers, women are more likely than men to say work-life balance is difficult for them (57% vs. 43%). Women teachers are also more likely to say they often find their job stressful or overwhelming.

How teachers view the education system

A large majority of teachers (82%) say the overall state of public K-12 education has gotten worse in the past five years.

And very few are optimistic about the next five years: Only 20% of teachers say public K-12 education will be a lot or somewhat better five years from now. A narrow majority (53%) say it will be worse.

Among teachers who think things have gotten worse in recent years, majorities say the current political climate (60%) and the lasting effects of the COVID-19 pandemic (57%) are major reasons. A sizable share (46%) also point to changes in the availability of funding and resources.

Related:  About half of Americans say public K-12 education is going in the wrong direction

Which political party do teachers trust more to deal with educational challenges?

On balance, more teachers say they trust the Democratic Party than say they trust the Republican Party to do a better job handling key issues facing the K-12 education system. But three-in-ten or more across the following issues say they don’t trust either party:

• Shaping school curriculum (42% say they trust neither party)
• Ensuring teachers have adequate pay and benefits (35%)
• Making schools safer (35%)
• Ensuring adequate funding for schools (33%)
• Ensuring all students have equal access to high-quality K-12 education (31%)

A majority of public K-12 teachers (58%) identify or lean toward the Democratic Party. This is higher than the share among the general public (47%).

• Poverty levels are based on the percentage of students in the school who are eligible for free and reduced-price lunch. ↩
• For details, refer to the Methodology section of the report. ↩
• Urban, suburban and rural schools are based on the location of the school as reported by the National Center for Education Statistics (rural includes town). Definitions match those used by the U.S. Census Bureau. ↩

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Report Materials

Table of contents, ‘back to school’ means anytime from late july to after labor day, depending on where in the u.s. you live, among many u.s. children, reading for fun has become less common, federal data shows, most european students learn english in school, for u.s. teens today, summer means more schooling and less leisure time than in the past, about one-in-six u.s. teachers work second jobs – and not just in the summer, most popular.

About Pew Research Center Pew Research Center is a nonpartisan fact tank that informs the public about the issues, attitudes and trends shaping the world. It conducts public opinion polling, demographic research, media content analysis and other empirical social science research. Pew Research Center does not take policy positions. It is a subsidiary of The Pew Charitable Trusts .

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Lab, telescope specialist details Harvard eclipse-viewing party, offers safety tips

Those who miss this one could need to wait 20 years to get another chance.

A total solar eclipse will cross Mexico, the U.S., and Canada on April 8, bringing millions of North Americans a striking celestial spectacle. The next total solar eclipse to cross the continental U.S. will be in 2044.

Allyson Bieryla , astronomy lab and telescope manager at the Center for Astrophysics | Harvard & Smithsonian (CfA), tells us what to expect, and how to view this natural wonder safely.

What should local eclipse-viewers expect?

Cambridge is not in the path of totality, but locally people will experience close to a 93 percent partial eclipse, which will start at 2:16 p.m. and end at 4:39 p.m., with maximum coverage occurring at 3:29 p.m.

During maximum, you will see just a sliver of the sun remaining. It won’t get completely dark like it would in a total eclipse, but it will still be a spectacular sight.

Over the course of the event, you will see a “bite” of the sun being eclipsed by the moon that will grow to cover most, but not all, of the sun. And then it will wane away.

And what is actually happening?

A total solar eclipse happens when the moon passes in front of the sun, casting a shadow on the Earth. The shadow only falls on a small portion of the Earth, so you are very lucky if it happens to fall where you live.

The “total” part is when the sun is completely blocked by the moon. For those that are able, whether it is this one or a future eclipse, traveling to the path of totality is worth every effort it takes. It is the most unnatural natural experience.  

What opportunities for scientific discovery does a total solar eclipse offer?

A total solar eclipse allows people to view the corona, or the sun’s outermost atmosphere. Because the sun’s surface is so bright, we don’t normally get to see the corona because it is so much dimmer. There is still a lot that astronomers would like to learn about the corona. 

What activities is the CfA hosting for local eclipse-viewing?

There will be a public event taking place in the Science Center Plaza from 2-5 p.m. There will be solar telescopes, free eclipse glasses, and a bunch of activities, including pinhole cameras, cyanotype prints of the sun, and a live feed of the totality.

We will also have LightSound devices converting the brightness of the sun into sound as the light dims, providing a nonvisual way for people to experience the eclipse. 

Rules for safe eclipse-viewing?

Observing the sun is safe if you have the correct equipment. It is never safe to look directly at the sun without proper eclipse glasses or filters, unless you are in the path of totality and in the brief moments of totality. Then, and only then, can you safely look at the sun without protection.

Cambridge is not in the path of totality, so it will never be safe to look at the sun without your eclipse glasses. It is also not okay to point a telescope, binoculars, or a camera at the sun without proper filters.

We will have all the proper equipment and experts on site at the Science Center to guide you safely looking at the sun during the eclipse. Trust me, it is worth it!

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