how to write a biology research question

• Jul 7, 2020

How to Write a Science Research Question

Humans are a very curious species. We are always asking questions. But the way we formulate a question is very important when we think about science and research. Here we’ll lay out how to form a science research question and the concepts needed to formulate a good research question. Luckily, we’ve got some handy visuals to help you along.

In order to inquire about the world, produce new information, and solve a mystery of about the natural world, we always use the scientific process to inform research questions. So, we need to keep in mind the steps of the scientific process :

Observation

Data to be obtained

Ways to analyze data

Conclusions to obtain from the question

First, clearly define your population and your variables.

Now, what is a population ? Defined in ecologic terms, a population are all the individuals of one species in a given area (e.g. population of deer, leatherback turtles, spruce trees, mushrooms, etc.).

Now, what is a variable ? A variable is any factor, trait, or condition that can exist in differing amounts or types (e.g. length, quantity, temperature, speed, mass, distance, depth, etc.).

So, using different combinations of these two components, we can create three different types of research questions: descriptive, comparative, and correlative. These three types also match three of the modern research methodologies. 

Descriptive field investigations involve describing and/or quantifying parts of a natural system. Includes generally 1 population and one distinctive variable (figure 1). Examples of descriptive research questions:

How many pine trees are in the Mammoth Hot Springs area?

What is the wolf pack’s distribution range?

How frequently do humpback whales breed?    

Comparative field investigations involve collecting data on different populations/organisms, or under different conditions (e.g., times of year, locations), to make a comparison. Includes two or more populations and one distinctive variable (figure 2). Examples of comparative research questions:

Is there a difference in body length between male and female tortoises?

Is there a difference in diversity of fungi that live in the forest compared with non-forested areas?  

Correlative field investigations involve measuring or observing two variables and searching for a relationship between them for a distinctive population (figure 3). Examples of correlative research questions:

What is the relationship between length of the tail and age in humpback whales?

How does a spider’s reproduction rate change with a change in season?

To practice how to write a research question, we suggest the following steps:

Find a nice place where you can be alone and connected with nature. Bring nothing else but a journal and a pencil. Take a few moments to breath and observe everything that surrounds you. Use all of your senses to obtain information from your surroundings: smell the flowers around you, feel the leaves, hear the birds, and recognize all the life.

Choose a population that is around you and that interests you (flowers, trees, insects, rocks), and think about what would you like to know about that population. Write down what you want to study from that population (your variable). It is easier to choose the population first and the variables second. Think about a feasible and simple measurement. One easy measurement is counting, since it doesn’t require an instrument.

Write down your question using your population and variable. Remember to write a question that is going to be simple, measurable, attainable, relevant, and limited to a particular time and place. Avoid why questions.

Next, write a prediction that answers your question. This is your hypothesis .

Now that you have a defined population, measure your variable, and obtain data. Don’t forget to write it down in your journal.

Finally, compare your hypothesis with your actual data and write a conclusion about your findings.

These simple and fun steps will help you create great questions that will lead you to find interesting answers and discoveries. But remember, this process not only works for scientific questions but also for daily issues, such as why the car stopped working. You can use it to investigate local environmental problems and provide possible solutions for the benefit of your community and future generations.

You can find more information about this topic in: Ryken, A. E., Otto, P., Pritchard, K., & Owens, K. (2007). Field investigations: Using outdoor environments to foster student learning of scientific processes . Pacific Education Institute. 

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Developing a Research Question

From Laurier Library. 

Selecting and Narrowing a Topic

Choose an area of interest to explore. .

For you to successfully finish a research project, it is important to choose a research topic that is relevant to your field of study and piques your curiosity. The flip side is that curiosity can take you down long and winding paths, so you also need to consider scope in how to effectively cover the topic in the space that you have available. If there's an idea or concept you've recently learned that's stuck with you, that might be a good place to start !

Gather background information.

You may not know right away what your research question is - that's okay! Start out with a broad topic, and see what information is out there through cursory background research. This will help you explore possibilities and narrow your topic to something manageable.    Do a few quick searches in OneSearch@IU  or in other relevant sources. See what other researchers have already written to help narrow your focus.  

Narrow your topic.

  Once you have a sense of how other researchers are talking about the topics you’re interested, narrow down your topic by asking the 5 Ws

• Who – population or group (e.g., working class, college students, Native Americans)
• What – discipline or focus (e.g., anthropological or art history)
• Where – geographic location (e.g., United States; universities; small towns; Standing Rock)
• When – time period or era (17 th century; contemporary; 2017)
• Why – why is the topic important? (to the class, to the field, or to you)

Broad topic: Native American representations in museums

Narrowed topic: Museum efforts to adhere to NAGPRA

Adapted from: University of Michigan. (2023 Finding and Exploring your topic. Retrieved from  https://guides.lib.umich.edu/c.php?g=283095&p=1886086

From Topic to Research Question

So, you have done some background research and narrowed down your topic. Now what? Start to turn that topic into a series of questions that you will attempt to answer the course of your research.  Keep in mind that you will probably end up changing and adjusting the question(s) you have as you gather more information and synthesize it in your writing. However, having a clear line of inquiry can help you maintain a sense of your direction, which will then in turn help you evaluate sources and identify relevant information throughout your research process. 

Exploratory questions.

These are the questions that comes from a genuine curiosity about your topic. When narrowing down your topic, you got a good sense of the Who, What, When, and Where of things. Now it’s time to consider

• Asking open-ended “how” and “why” questions about your general topic, which can lead you to better explanations about a phenomenon or concept
• Consider the “so what?” of your topic. Why does this topic matter to you? Why should it matter to others? What are the implications of the information you’re discovering through the search process to the Who and the What of your topic?

Evaluate your research question.

Use the following to determine if any of the questions you generated would be appropriate and workable for your assignment. 

• Is your question clear ? Do you have a specific aspect of your general topic that you are going to explore further? Will the reader of your research be able to keep it in mind?
• Is your question focused? Will you be able to cover the topic adequately in the space available? Are you able to concisely ask the question?
• Is your question and arguable ? If it can be answered with a simple Yes or No, then dig deeper. Once you get to “it depends on X, Y, and Z” then you might be getting on the right track.

Hypothesize. 

Once you have developed your research question, consider how you will attempt to answer or address it. 

• What connections can you make between the research you’ve read and your research question? Why do those connections matter?
• What other kinds of sources will you need in order to support your argument?
• If someone refutes the answer to your research question, what is your argument to back up your conclusion?
• How might others challenge your argument? Why do those challenges ultimately not hold water?

Adapted from: George Mason University Writing Center. (2018). How to write a research question. Retrieved from  https://writingcenter.gmu.edu/writing-resources/research-based-writing/how-to-write-a-research-question

Sample research questions.

A good research question is clear, focused, and has an appropriate level of complexity. Developing a strong question is a process, so you will likely refine your question as you continue to research and to develop your ideas.  

Unclear : Why are social networking sites harmful?

Clear:  How are online users experiencing or addressing privacy issues on such social networking sites as Facebook and TikTok?

Unfocused:  What is the effect on the environment from global warming?

Focused:  How is glacial melting affecting penguins in Antarctica?

Simple vs Complex

Too simple:  How are doctors addressing diabetes in the U.S.?

Appropriately Complex:   What are common traits of those suffering from diabetes in America, and how can these commonalities be used to aid the medical community in prevention of the disease?

General Online Reference Sources

Reference sources like dictionaries and encylopedias provide general information about various subjects. They also include definitions that may help you break down your topic and understand it better. Sources includes in these entries can be springboards for more in-depth research.

A note on citation: Reference sources are generally not cited since they usually consist of common knowledge (e.g. who was the first United States President).  But if you're unsure whether to cite something it's best to do so. Specific pieces of information and direct quotes should always be cited. 

Encyclopedias and specialized reference resources in: Arts, Biography, History, Information and Publishing, Law, Literature, Medicine, Multicultural Studies, Nation and World, Religion, Science, Social Science

Why Use References Sources

Reference sources are a great place to begin your research. They can help you:

• gain an overview of a topic
• explore potential research areas
• identify key issues, publications, or authors in your research area

From here, you can narrow your search topic and look at more specialized sources.

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How to Write a Good Research Question (w/ Examples)

What is a Research Question?

A research question is the main question that your study sought or is seeking to answer. A clear research question guides your research paper or thesis and states exactly what you want to find out, giving your work a focus and objective. Learning  how to write a hypothesis or research question is the start to composing any thesis, dissertation, or research paper. It is also one of the most important sections of a research proposal . 

A good research question not only clarifies the writing in your study; it provides your readers with a clear focus and facilitates their understanding of your research topic, as well as outlining your study’s objectives. Before drafting the paper and receiving research paper editing (and usually before performing your study), you should write a concise statement of what this study intends to accomplish or reveal.

Research Question Writing Tips

Listed below are the important characteristics of a good research question:

A good research question should:

• Be clear and provide specific information so readers can easily understand the purpose.
• Be focused in its scope and narrow enough to be addressed in the space allowed by your paper
• Be relevant and concise and express your main ideas in as few words as possible, like a hypothesis.
• Be precise and complex enough that it does not simply answer a closed “yes or no” question, but requires an analysis of arguments and literature prior to its being considered acceptable. 
• Be arguable or testable so that answers to the research question are open to scrutiny and specific questions and counterarguments.

Some of these characteristics might be difficult to understand in the form of a list. Let’s go into more detail about what a research question must do and look at some examples of research questions.

The research question should be specific and focused 

Research questions that are too broad are not suitable to be addressed in a single study. One reason for this can be if there are many factors or variables to consider. In addition, a sample data set that is too large or an experimental timeline that is too long may suggest that the research question is not focused enough.

A specific research question means that the collective data and observations come together to either confirm or deny the chosen hypothesis in a clear manner. If a research question is too vague, then the data might end up creating an alternate research problem or hypothesis that you haven’t addressed in your Introduction section .

The research question should be based on the literature 

An effective research question should be answerable and verifiable based on prior research because an effective scientific study must be placed in the context of a wider academic consensus. This means that conspiracy or fringe theories are not good research paper topics.

Instead, a good research question must extend, examine, and verify the context of your research field. It should fit naturally within the literature and be searchable by other research authors.

References to the literature can be in different citation styles and must be properly formatted according to the guidelines set forth by the publishing journal, university, or academic institution. This includes in-text citations as well as the Reference section . 

The research question should be realistic in time, scope, and budget

There are two main constraints to the research process: timeframe and budget.

A proper research question will include study or experimental procedures that can be executed within a feasible time frame, typically by a graduate doctoral or master’s student or lab technician. Research that requires future technology, expensive resources, or follow-up procedures is problematic.

A researcher’s budget is also a major constraint to performing timely research. Research at many large universities or institutions is publicly funded and is thus accountable to funding restrictions. 

The research question should be in-depth

Research papers, dissertations and theses , and academic journal articles are usually dozens if not hundreds of pages in length.

A good research question or thesis statement must be sufficiently complex to warrant such a length, as it must stand up to the scrutiny of peer review and be reproducible by other scientists and researchers.

Research Question Types

Qualitative and quantitative research are the two major types of research, and it is essential to develop research questions for each type of study. 

Quantitative Research Questions

Quantitative research questions are specific. A typical research question involves the population to be studied, dependent and independent variables, and the research design.

In addition, quantitative research questions connect the research question and the research design. In addition, it is not possible to answer these questions definitively with a “yes” or “no” response. For example, scientific fields such as biology, physics, and chemistry often deal with “states,” in which different quantities, amounts, or velocities drastically alter the relevance of the research.

As a consequence, quantitative research questions do not contain qualitative, categorical, or ordinal qualifiers such as “is,” “are,” “does,” or “does not.”

Categories of quantitative research questions

Qualitative Research Questions

In quantitative research, research questions have the potential to relate to broad research areas as well as more specific areas of study. Qualitative research questions are less directional, more flexible, and adaptable compared with their quantitative counterparts. Thus, studies based on these questions tend to focus on “discovering,” “explaining,” “elucidating,” and “exploring.”

Categories of qualitative research questions

Quantitative and Qualitative Research Question Examples

Good and Bad Research Question Examples

Below are some good (and not-so-good) examples of research questions that researchers can use to guide them in crafting their own research questions.

Research Question Example 1

The first research question is too vague in both its independent and dependent variables. There is no specific information on what “exposure” means. Does this refer to comments, likes, engagement, or just how much time is spent on the social media platform?

Second, there is no useful information on what exactly “affected” means. Does the subject’s behavior change in some measurable way? Or does this term refer to another factor such as the user’s emotions?

Research Question Example 2

In this research question, the first example is too simple and not sufficiently complex, making it difficult to assess whether the study answered the question. The author could really only answer this question with a simple “yes” or “no.” Further, the presence of data would not help answer this question more deeply, which is a sure sign of a poorly constructed research topic.

The second research question is specific, complex, and empirically verifiable. One can measure program effectiveness based on metrics such as attendance or grades. Further, “bullying” is made into an empirical, quantitative measurement in the form of recorded disciplinary actions.

Steps for Writing a Research Question

Good research questions are relevant, focused, and meaningful. It can be difficult to come up with a good research question, but there are a few steps you can follow to make it a bit easier.

1. Start with an interesting and relevant topic

Choose a research topic that is interesting but also relevant and aligned with your own country’s culture or your university’s capabilities. Popular academic topics include healthcare and medical-related research. However, if you are attending an engineering school or humanities program, you should obviously choose a research question that pertains to your specific study and major.

Below is an embedded graph of the most popular research fields of study based on publication output according to region. As you can see, healthcare and the basic sciences receive the most funding and earn the highest number of publications. 

2. Do preliminary research  

You can begin doing preliminary research once you have chosen a research topic. Two objectives should be accomplished during this first phase of research. First, you should undertake a preliminary review of related literature to discover issues that scholars and peers are currently discussing. With this method, you show that you are informed about the latest developments in the field.

Secondly, identify knowledge gaps or limitations in your topic by conducting a preliminary literature review . It is possible to later use these gaps to focus your research question after a certain amount of fine-tuning.

3. Narrow your research to determine specific research questions

You can focus on a more specific area of study once you have a good handle on the topic you want to explore. Focusing on recent literature or knowledge gaps is one good option. 

By identifying study limitations in the literature and overlooked areas of study, an author can carve out a good research question. The same is true for choosing research questions that extend or complement existing literature.

4. Evaluate your research question

Make sure you evaluate the research question by asking the following questions:

Is my research question clear?

The resulting data and observations that your study produces should be clear. For quantitative studies, data must be empirical and measurable. For qualitative, the observations should be clearly delineable across categories.

Is my research question focused and specific?

A strong research question should be specific enough that your methodology or testing procedure produces an objective result, not one left to subjective interpretation. Open-ended research questions or those relating to general topics can create ambiguous connections between the results and the aims of the study. 

Is my research question sufficiently complex?

The result of your research should be consequential and substantial (and fall sufficiently within the context of your field) to warrant an academic study. Simply reinforcing or supporting a scientific consensus is superfluous and will likely not be well received by most journal editors.  

Editing Your Research Question

Your research question should be fully formulated well before you begin drafting your research paper. However, you can receive English paper editing and proofreading services at any point in the drafting process. Language editors with expertise in your academic field can assist you with the content and language in your Introduction section or other manuscript sections. And if you need further assistance or information regarding paper compositions, in the meantime, check out our academic resources , which provide dozens of articles and videos on a variety of academic writing and publication topics.

How to Write a Research Question: Types and Examples 

The first step in any research project is framing the research question. It can be considered the core of any systematic investigation as the research outcomes are tied to asking the right questions. Thus, this primary interrogation point sets the pace for your research as it helps collect relevant and insightful information that ultimately influences your work.   

Typically, the research question guides the stages of inquiry, analysis, and reporting. Depending on the use of quantifiable or quantitative data, research questions are broadly categorized into quantitative or qualitative research questions. Both types of research questions can be used independently or together, considering the overall focus and objectives of your research.  

What is a research question?

A research question is a clear, focused, concise, and arguable question on which your research and writing are centered. 1 It states various aspects of the study, including the population and variables to be studied and the problem the study addresses. These questions also set the boundaries of the study, ensuring cohesion. 

Designing the research question is a dynamic process where the researcher can change or refine the research question as they review related literature and develop a framework for the study. Depending on the scale of your research, the study can include single or multiple research questions. 

A good research question has the following features: 

• It is relevant to the chosen field of study. 
• The question posed is arguable and open for debate, requiring synthesizing and analysis of ideas. 
• It is focused and concisely framed. 
• A feasible solution is possible within the given practical constraint and timeframe. 

A poorly formulated research question poses several risks. 1   

• Researchers can adopt an erroneous design. 
• It can create confusion and hinder the thought process, including developing a clear protocol.  
• It can jeopardize publication efforts.  
• It causes difficulty in determining the relevance of the study findings.  
• It causes difficulty in whether the study fulfils the inclusion criteria for systematic review and meta-analysis. This creates challenges in determining whether additional studies or data collection is needed to answer the question.  
• Readers may fail to understand the objective of the study. This reduces the likelihood of the study being cited by others. 

Now that you know “What is a research question?”, let’s look at the different types of research questions. 

Types of research questions

Depending on the type of research to be done, research questions can be classified broadly into quantitative, qualitative, or mixed-methods studies. Knowing the type of research helps determine the best type of research question that reflects the direction and epistemological underpinnings of your research. 

The structure and wording of quantitative 2 and qualitative research 3 questions differ significantly. The quantitative study looks at causal relationships, whereas the qualitative study aims at exploring a phenomenon. 

• Quantitative research questions:  
• Seeks to investigate social, familial, or educational experiences or processes in a particular context and/or location.  
• Answers ‘how,’ ‘what,’ or ‘why’ questions. 
• Investigates connections, relations, or comparisons between independent and dependent variables. 

Quantitative research questions can be further categorized into descriptive, comparative, and relationship, as explained in the Table below. 

• Qualitative research questions  

Qualitative research questions are adaptable, non-directional, and more flexible. It concerns broad areas of research or more specific areas of study to discover, explain, or explore a phenomenon. These are further classified as follows: 

• Mixed-methods studies  

Mixed-methods studies use both quantitative and qualitative research questions to answer your research question. Mixed methods provide a complete picture than standalone quantitative or qualitative research, as it integrates the benefits of both methods. Mixed methods research is often used in multidisciplinary settings and complex situational or societal research, especially in the behavioral, health, and social science fields. 

What makes a good research question

A good research question should be clear and focused to guide your research. It should synthesize multiple sources to present your unique argument, and should ideally be something that you are interested in. But avoid questions that can be answered in a few factual statements. The following are the main attributes of a good research question. 

• Specific: The research question should not be a fishing expedition performed in the hopes that some new information will be found that will benefit the researcher. The central research question should work with your research problem to keep your work focused. If using multiple questions, they should all tie back to the central aim. 
• Measurable: The research question must be answerable using quantitative and/or qualitative data or from scholarly sources to develop your research question. If such data is impossible to access, it is better to rethink your question. 
• Attainable: Ensure you have enough time and resources to do all research required to answer your question. If it seems you will not be able to gain access to the data you need, consider narrowing down your question to be more specific. 
• You have the expertise 
• You have the equipment and resources 
• Realistic: Developing your research question should be based on initial reading about your topic. It should focus on addressing a problem or gap in the existing knowledge in your field or discipline. 
• Based on some sort of rational physics 
• Can be done in a reasonable time frame 
• Timely: The research question should contribute to an existing and current debate in your field or in society at large. It should produce knowledge that future researchers or practitioners can later build on. 
• Novel 
• Based on current technologies. 
• Important to answer current problems or concerns. 
• Lead to new directions. 
• Important: Your question should have some aspect of originality. Incremental research is as important as exploring disruptive technologies. For example, you can focus on a specific location or explore a new angle. 
• Meaningful whether the answer is “Yes” or “No.” Closed-ended, yes/no questions are too simple to work as good research questions. Such questions do not provide enough scope for robust investigation and discussion. A good research question requires original data, synthesis of multiple sources, and original interpretation and argumentation before providing an answer. 

Steps for developing a good research question

The importance of research questions cannot be understated. When drafting a research question, use the following frameworks to guide the components of your question to ease the process. 4  

• Determine the requirements: Before constructing a good research question, set your research requirements. What is the purpose? Is it descriptive, comparative, or explorative research? Determining the research aim will help you choose the most appropriate topic and word your question appropriately. 
• Select a broad research topic: Identify a broader subject area of interest that requires investigation. Techniques such as brainstorming or concept mapping can help identify relevant connections and themes within a broad research topic. For example, how to learn and help students learn. 
• Perform preliminary investigation: Preliminary research is needed to obtain up-to-date and relevant knowledge on your topic. It also helps identify issues currently being discussed from which information gaps can be identified. 
• Narrow your focus: Narrow the scope and focus of your research to a specific niche. This involves focusing on gaps in existing knowledge or recent literature or extending or complementing the findings of existing literature. Another approach involves constructing strong research questions that challenge your views or knowledge of the area of study (Example: Is learning consistent with the existing learning theory and research). 
• Identify the research problem: Once the research question has been framed, one should evaluate it. This is to realize the importance of the research questions and if there is a need for more revising (Example: How do your beliefs on learning theory and research impact your instructional practices). 

How to write a research question

Those struggling to understand how to write a research question, these simple steps can help you simplify the process of writing a research question. 

Sample Research Questions

The following are some bad and good research question examples 

• Example 1 

• Example 2 

References:  

• Thabane, L., Thomas, T., Ye, C., & Paul, J. (2009). Posing the research question: not so simple.  Canadian Journal of Anesthesia/Journal canadien d’anesthésie ,  56 (1), 71-79. 
• Rutberg, S., & Bouikidis, C. D. (2018). Focusing on the fundamentals: A simplistic differentiation between qualitative and quantitative research.  Nephrology Nursing Journal ,  45 (2), 209-213. 
• Kyngäs, H. (2020). Qualitative research and content analysis.  The application of content analysis in nursing science research , 3-11. 
• Mattick, K., Johnston, J., & de la Croix, A. (2018). How to… write a good research question.  The clinical teacher ,  15 (2), 104-108. 
• Fandino, W. (2019). Formulating a good research question: Pearls and pitfalls.  Indian Journal of Anaesthesia ,  63 (8), 611. 
• Richardson, W. S., Wilson, M. C., Nishikawa, J., & Hayward, R. S. (1995). The well-built clinical question: a key to evidence-based decisions.  ACP journal club ,  123 (3), A12-A13 

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How To Write a Research Question

Academic writing and research require a distinct focus and direction. A well-designed research question gives purpose and clarity to your research. In addition, it helps your readers understand the issue you are trying to address and explore.

Every time you want to know more about a subject, you will pose a question. The same idea is used in research as well. You must pose a question in order to effectively address a research problem. That's why the research question is an integral part of the research process. Additionally, it offers the author writing and reading guidelines, be it qualitative research or quantitative research.

In your research paper , you must single out just one issue or problem. The specific issue or claim you wish to address should be included in your thesis statement in order to clarify your main argument.

A good research question must have the following characteristics.

• Should include only one problem in the research question
• Should be able to find the answer using primary data and secondary data sources
• Should be possible to resolve within the given time and other constraints
• Detailed and in-depth results should be achievable
• Should be relevant and realistic.
• It should relate to your chosen area of research

While a larger project, like a thesis, might have several research questions to address, each one should be directed at your main area of study. Of course, you can use different research designs and research methods (qualitative research or quantitative research) to address various research questions. However, they must all be pertinent to the study's objectives.

What is a Research Question?

A research question is an inquiry that the research attempts to answer. It is the heart of the systematic investigation. Research questions are the most important step in any research project. In essence, it initiates the research project and establishes the pace for the specific research A research question is:

• Clear : It provides enough detail that the audience understands its purpose without any additional explanation.
• Focused : It is so specific that it can be addressed within the time constraints of the writing task.
• Succinct: It is written in the shortest possible words.
• Complex : It is not possible to answer it with a "yes" or "no", but requires analysis and synthesis of ideas before somebody can create a solution.
• Argumental : Its potential answers are open for debate rather than accepted facts.

A good research question usually focuses on the research and determines the research design, methodology, and hypothesis. It guides all phases of inquiry, data collection, analysis, and reporting. You should gather valuable information by asking the right questions.

Why are Research Questions so important?

Regardless of whether it is a qualitative research or quantitative research project, research questions provide writers and their audience with a way to navigate the writing and research process. Writers can avoid "all-about" papers by asking straightforward and specific research questions that help them focus on their research and support a specific thesis.

Types of Research Questions

There are two types of research: Qualitative research and Quantitative research . There must be research questions for every type of research. Your research question will be based on the type of research you want to conduct and the type of data collection.

The first step in designing research involves identifying a gap and creating a focused research question.

Below is a list of common research questions that can be used in a dissertation. Keep in mind that these are merely illustrations of typical research questions used in dissertation projects. The real research questions themselves might be more difficult.

Example Research Questions

The following are a few examples of research questions and research problems to help you understand how research questions can be created for a particular research problem.

Steps to Write Research Questions

You can focus on the issue or research gaps you're attempting to solve by using the research questions as a direction.

If you're unsure how to go about writing a good research question, these are the steps to follow in the process:

• Select an interesting topic Always choose a topic that interests you. Because if your curiosity isn’t aroused by a subject, you’ll have a hard time conducting research around it. Alos, it’s better that you pick something that’s neither too narrow or too broad.
• Do preliminary research on the topic Search for relevant literature to gauge what problems have already been tackled by scholars. You can do that conveniently through repositories like Scispace , where you’ll find millions of papers in one place. Once you do find the papers you’re looking for, try our reading assistant, SciSpace Copilot to get simple explanations for the paper . You’ll be able to quickly understand the abstract, find the key takeaways, and the main arguments presented in the paper. This will give you a more contextual understanding of your subject and you’ll have an easier time identifying knowledge gaps in your discipline.

     Also: ChatPDF vs. SciSpace Copilot: Unveiling the best tool for your research

• Consider your audience It is essential to understand your audience to develop focused research questions for essays or dissertations. When narrowing down your topic, you can identify aspects that might interest your audience.
• Ask questions Asking questions will give you a deeper understanding of the topic. Evaluate your question through the What, Why, When, How, and other open-ended questions assessment.
• Assess your question Once you have created a research question, assess its effectiveness to determine if it is useful for the purpose. Refine and revise the dissertation research question multiple times.

Additionally, use this list of questions as a guide when formulating your research question.

Are you able to answer a specific research question? After identifying a gap in research, it would be helpful to formulate the research question. And this will allow the research to solve a part of the problem. Is your research question clear and centered on the main topic? It is important that your research question should be specific and related to your central goal. Are you tackling a difficult research question? It is not possible to answer the research question with a simple yes or no. The problem requires in-depth analysis. It is often started with "How" and "Why."

Start your research Once you have completed your dissertation research questions, it is time to review the literature on similar topics to discover different perspectives.

Strong  Research Question Samples

Uncertain: How should social networking sites work on the hatred that flows through their platform?

Certain: What should social media sites like Twitter or Facebook do to address the harm they are causing?

This unclear question does not specify the social networking sites that are being used or what harm they might be causing. In addition, this question assumes that the "harm" has been proven and/or accepted. This version is more specific and identifies the sites (Twitter, Facebook), the type and extent of harm (privacy concerns), and who might be suffering from that harm (users). Effective research questions should not be ambiguous or interpreted.

Unfocused: What are the effects of global warming on the environment?

Focused: What are the most important effects of glacial melting in Antarctica on penguins' lives?

This broad research question cannot be addressed in a book, let alone a college-level paper. Focused research targets a specific effect of global heating (glacial  melting), an area (Antarctica), or a specific animal (penguins). The writer must also decide which effect will have the greatest impact on the animals affected. If in doubt, narrow down your research question to the most specific possible.

Too Simple: What are the U.S. doctors doing to treat diabetes?

Appropriately complex: Which factors, if any, are most likely to predict a person's risk of developing diabetes?

This simple version can be found online. It is easy to answer with a few facts. The second, more complicated version of this question is divided into two parts. It is thought-provoking and requires extensive investigation as well as evaluation by the author. So, ensure that a quick Google search should not answer your research question.

How to write a strong Research Question?

The foundation of all research is the research question. You should therefore spend as much time as necessary to refine your research question based on various data.

You can conduct your research more efficiently and analyze your results better if you have great research questions for your dissertation, research paper , or essay .

The following criteria can help you evaluate the strength and importance of your research question and can be used to determine the strength of your research question:

• Researchable
• It should only cover one issue.
• A subjective judgment should not be included in the question.
• It can be answered with data analysis and research.
• Specific and Practical
• It should not contain a plan of action, policy, or solution.
• It should be clearly defined
• Within research limits
• Complex and Arguable
• It shouldn't be difficult to answer.
• To find the truth, you need in-depth knowledge
• Allows for discussion and deliberation
• Original and Relevant
• It should be in your area of study
• Its results should be measurable
• It should be original

Conclusion - How to write Research Questions?

Research questions provide a clear guideline for research. One research question may be part of a larger project, such as a dissertation. However, each question should only focus on one topic.

Research questions must be answerable, practical, specific, and applicable to your field. The research type that you use to base your research questions on will determine the research topic. You can start by selecting an interesting topic and doing preliminary research. Then, you can begin asking questions, evaluating your questions, and start your research.

Now it's easier than ever to streamline your research workflow with SciSpace ResearchGPT . Its integrated, comprehensive end-to-end platform for research allows scholars to easily discover, read, write and publish their research and fosters collaboration.

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How To Write A Question For A Science Experiment

How to Write a Science Research Question . Humans are a very curious species. We are always asking questions. But the way we formulate a question is very important when we think about science and research. Here we’ll lay out how to form a science research question and the concepts needed to formulate a good research question. Luckily, we’ve got some handy visuals to help you along. In order to inquire about the world, produce new information, and solve a mystery of about the natural world, we always use the scientific process to inform research questions. So, we need to keep in mind the steps of the scientific process:ObservationHypothesisData to be obtainedWays to analyze dataConclusions to obtain from the questionFirst, clearly define your population and your variables.

Video advice: How to write instructions for SCIENCE EXPERIMENTS

Cómo escribir instrucciones para un experimento de ciencias en inglés.

What is an example of an experiment question?

What is an example of a scientific question.

Questions are an essential part of science. ... They state the final question in a way that can be answered by investigation or experiment. A good scientific question is: “ What effect does the pH of water have on radish seed germination ?” Good scientific questions are defined, measurable, and controllable.

What is the question in a science experiment?

A testable question is one that can be answered by designing and conducting an experiment. Testable questions are always about changing one thing to see what the effect is on another thing.

What are examples of experiments?

To experiment is defined as to try out something new or to test a theory. An example of experiment is when you try out a new hair style . An example of experiment is when you use test tubes and chemicals in a lab to complete a project and to try to better understand chemical reactions.

How do you set up an experiment?

Steps in Planning a Research Experiment

• State the hypothesis to be tested. ...
• Formulate a context. ...
• Formulate a theoretical model. ...
• Design the experiment. ...
• Construct the experiment.
• Test the experimental apparatus. ...
• Perform preliminary experiments. ...
• Perform the experiment.

Video advice: Example of a controlled experiment using the Scientific Method

This video is an example of how to set up a controlled experiment (which is the type of experiment you will want to use for the Science Fair). Use this example for any experiments using the scientific method in the Earth Science, Physical Science, Life Science or Food Science categories.

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The Ultimate Writing Guide to the QCAA Biology Student Experiment

Expected to write up a student experiment report for QCAA Biology but aren’t too sure how to approach the task?

We’re here to help you out! We’ll walk you through each of the different sections of the student experiment report for QCAA Biology, so that you’ve got a clear understanding of the structure.

What are you waiting for? Let’s get started!

What is a Student Experiment? How do you write a Student Experiment for QCAA Biology? QCAA Biology Student Experiment Report Structure

What is a student experiment?

A student experiment is simply a chance for you to showcase your ability to employ the scientific method in 1500 to 2000 words!

This assessment piece requires you to develop a research question or hypothesis, and attempt to address it through the collection and analysis of primary data. In order to do this, you will need to refine, extend, or modify a previously conducted experiment. 

Want to see how you went in the IA1? Check out our QCE Cohort Comparison Tool to show you were you sit compared to your peers!

How do you write a student experiment for QCAA Biology? 

To successfully complete this task, QCAA state that you must:

• Develop a research question to be investigated and conduct relevant background research to inform your modifications to the methodology
• Conduct a risk assessment and account for risks in the methodology
• Collect sufficient and relevant qualitative and/or quantitative data to address the research question 
• Process and present the data appropriately to allow for the analysis of trend, patterns or relationships, as well as uncertainty and limitations
• Interpret the evidence to draw conclusion/s to the research question
• Evaluate the reliability and validity of the experimental process
• Suggest possible improvements and extensions to the experiment

In short, these are the steps you will need to follow:

Below is a breakdown for how, exactly, to complete a student experiment and hit all the marks along the way. 

In the example below, the data used comes from the Moreton Bay Environmental Education Centre (MBEEC) . Learn more about their different curriculum programs! Please also keep in mind that this example has data for one particular species, and when writing up your own experiment, you will need to choose a different species to avoid any plagiarism.

Download our QCAA Biology Student Experiment structure!

QCAA Biology Student Experiment Report Structure

Step 1: write your introduction.

The bulk of your research and background theory should be contained within the rationale.

It is important that you show the development of your investigation through the rationale! You can’t simply jump straight to the crux of the investigation, as that doesn’t give any indication as to why you are doing the investigation and any important information that has informed your question.

For this reason, it can be helpful to think of your rationale as a funnel through which you are feeding the reader information .

For example , let’s look at the rationale mapping for an investigation into how climate change’s influence on water temperature impacts the abundance of a species of a fish species known as Pelates sexlineatus.  

It’s also important to make sure that your rationale addresses every component of your research question!  The purpose of your rationale is, after all, to show how the question has been developed. You should also show how you have considered your modifications to the original experiment.

To get top marks , your rationale must be “considered”. What does this mean?

Your rationale must discuss any theory that is important for the investigation. You must also show that your modifications to the methodology have been informed by theory. Using the funnel method shown above can help you produce a considered rationale. 

QCAA Biology Student Experiment example: Climate Change Impacts on Marine Ecosystems (2012), authored by Scott. C. Doney, et al., investigates the detrimental consequences marine ecosystems are facing, resultant of anthropogenic climate change. When regarding ecological timescales, a central problem posed by climate change is the rising levels of atmospheric carbon dioxide (CO 2 ) (Doney, et al., 2012). The significance of this issue is due to its global prevalence and damaging nature (Doney, et al., 2012). It can be noted that the primary effect increasing CO 2   levels has on the ocean is rising temperatures. Doney et al. identified that fluctuations in ocean temperatures may ultimately impact the functioning of ecosystems. Varying and heightened temperatures have the potential to alter the “physiological function, behaviour and demographic traits [for example, productivity] of organisms” in marine ecosystems (Doney, et al., 2012). Additionally, this may lead to a subsequent decrement in the abundance of organisms within species. Ultimately, ocean temperatures regulate species interactions and behaviour – particularly the behaviour of ectotherms – and fluctuations in temperature can result in changes to trophic pathways. 

Original Experiment

This does not need to be incredibly lengthy — a few sentences tacked on to the end of your rationale will suffice! All you need to do is:

• State the aim of the original experiment
• Identify some of the limitations that will be addressed by your investigation

To get top marks , you must demonstrate that your modifications to the methodology are “justified”. By identifying the limitations of the original investigation, you are making it much easier to justify your own modifications!

For example: The original investigation aimed to investigate how a multitude of abiotic factors affect the distribution of the species Chrysophry auratus in Moreton Bay. This investigation is limited in that: 1) abiotic data has been omitted for all measurements taken prior to 2015, and 2) the analysis lacks specificity since it investigates a variety of abiotic factors — thus, the data is only being examined at surface-level.

Developing a Research Question for your QCAA Biology Student Experiment

When developing your research question, the goal is to generate a question that is succinct and specific enough to provide results that can be analysed with ease . You want to ensure that both your dependent and independent variables are not only included in the question, but operationalised.

To make your research question even better, prompt the investigation to seek directionality. Instead of asking, “Does X impact Y?”, ask “ How does X impact Y?”.

By only asking “Does”, you are asking a yes or no question. The inclusion of “How” necessitates a more in-depth investigation of the relationship between the variables.

To get top marks , your research question must be “specific” and “relevant” — but what does this mean? This means that you have to really consider the variables you are exploring and make sure that your question is linked nicely to your rationale. Every aspect of your research question should be addressed in the rationale. 

For example: How has climate change’s impact on the abiotic factor of water temperature (˚C) affected the abundance of P. sexlineatus, between 2015 and 2018, at Moreton Bay? 

Step 2: Define Your Methodology

Original method.

It’s important to note that you don’t need to include a step-by-step guide on how to conduct the original experiment. You simply just need to provide a general idea of how the original methodology attempted to address the aim. 

For example: The original methodology, on which this report is based, utilised a baited remote underwater video station (BRUV) in order to attract and record marine species in the vicinity. 

Modifications to Methodology

This section should also not be mistaken for a step-by-step guide on how to conduct the new experiment. What this section should include are the ways you have changed the methodology  for your own Biology student experiment.

You can show this through the inclusion of refinements, extensions and redirections. It is also important to indicate how these modifications improved the original method and addressed any limitations. 

To get top marks , you must show that your modifications are “justified” and that your methodology allows you to collect “sufficient” and “relevant” data. This can be achieved simply by showing how your investigation is an improvement of the original. 

For example: The key refinement to the original experiment is the alteration of the species of focus … [This] refinement allow[s] for the analysis of relevant and appropriate data and ensures that the investigation is specific. Extensions include examining the links between the abiotic factors of water temperature, water depth and season … [This] extension allow[s] for the insightful analysis of data — ensuring it is assessed beyond the surface level … Redirections include … investigating the effects of climate change on the species abundance of P. sexlineatus, due to its impact on water temperature. [This] redirection allow[s] for the investigation to fill gaps in the scientific understanding presented by the original study.

Management of Risks and Ethical Considerations

In this section, you need to identify any major safety risks and ethical concerns that were posed by the investigation . It is also crucial that you elaborate on how these risks and ethical concerns were addressed. 

To get top marks , you must show that your management of risks and ethical concerns is “considered”. You can do this by showing that these risks and concerns were taken into account before you even conducted the experiment. 

For example: As the methodology consisted solely of analysing pre-collected data from a reputable source, no safety risks were identified. However, ethical considerations have been noted when examining the data collection technique implemented throughout the original study. The non-invasive nature of BRUVs ensures they do not harm organisms; although, in some instances, its deployment may cause damage to the surrounding habitats. The effects of this can be mitigated should the investigator aim to deploy the BRUV thoughtfully. 

Up until this point, the only criteria that has been assessed is:

Refer to the “To get top marks” component of each subsection to see how you can ensure you meet all of the criteria. 

Step 3: Generate Results from Your Student Experiment

Descriptive statistics and inferential statistics.

In this section it is imperative that you discuss any trends, patterns or relationships that you see in the data. Further, you should make an effort to link your observations back to the research question as much as possible.

You may also wish to present your data in a graphical or tabular format in this section (however, ensure you include error bars and/or uncertainty). 

Additionally, you should discuss the significance of your results. You can do this by analysing the error bars on your graph… Ask yourself, are they overlapping? If so, your data isn’t statistically significant.

You can also employ the use of inferential tests to determine statistical significance. For any calculations you do, however, you should include an example in this section. 

To get top marks, you must demonstrate the “appropriate” application of mathematical procedures, as well as “appropriate” “visual” and “graphical” presentations of the data. Additionally, you must identify trends, patterns, or relationships that are relevant to the investigation — you can do this by ensuring you link your observations back to the question. 

QCAA Biology Student Experiment example: The mean number of P. sexlineatus increases almost twofold at temperatures ≤22˚C, compared to temperatures >22˚C. With a confidence interval of 95%, it is expected that the mean number of P. sexlineatus at temperatures less than 22˚C is 22±6.94. However, at temperatures ≥22˚C this value is reduced to 10±3.76. This relationship between the abiotic factor of water temperature and the abundance of P. sexlineatus is supported by scientific literature; this marine species prefers cooler water temperatures (operationalised as temperatures below 22˚C). When comparing the abundance of P. sexlineatus at temperatures above and below 22˚C, a p-value of 0.004 was produced … As this value is less than 0.05, it can be deduced that the results are statistically significant, and that water temperature does influence the abundance of the species. 

Limitations

Here you will comment on any sources of error or uncertainty, as well as any shortcomings of the methodology that have potentially impacted your ability to accurately answer the research question or draw a conclusion.

It can help to break this section up into limitations concerning the data and limitations concerning the methodology. This will make it easier to write up the reliability and validity section, as reliability concerns data and validity concerns methodology. 

According to the QCAA, to get top marks you must demonstrate the “thorough” and “appropriate” identification of uncertainty and limitations. This means that you must comment on and acknowledge how the uncertainty and limitations impact your ability to draw causal conclusions or answer your research question. 

For example: Limitations concerning the data include: some measurements exhibited larger confidence intervals, relative to the mean (indicating uncertainty) … Limitations concerning the methodology include: the type of bait used might impact the species that are attracted to the BRUV – it has been identified that P. sexlineatus primarily feed on crustaceans; however, the bait used was not crustaceous. 

Analysis of Results

In this section of the Biology Student Experiment, you must talk about what your results mean with regard to answering the research question . You can also talk about what you expected the results to look like and compare that to what was actually seen.

If desired, you can do further research to gain any theory (that isn’t contained within the rationale) that may help you explain the results. 

To get top marks, you must draw “justified” conclusions that are “linked” to the research question. By linking your observations back to the theory and making very explicit connections to the research question , you can tick off this criteria. 

QCAA Biology Student Experiment example: Water temperature has a significant effect on the abundance of P. sexlineatus … The data shows that there is an inversely proportional relationship between water temperature and P. sexlineatus abundance. Further, water temperature is understood to be directly influenced by climate change … Upon conducting further research, it has been recognised that the metabolic rates of aquatic organisms has a directly proportional relationship with water temperature (Fondriest Environmental, Inc., 2014) … Increased metabolic rates may be detrimental to the health of aquatic organisms if maintained for extended periods of time (Fondriest Environmental, Inc., 2014). Ultimately, these physiological responses cause behavioural changes such as relocation, which impacts the measurements of species abundance. Thus, being a cold-water species, it can be deduced that climate change negatively affects the abundance of P. sexlineatus via increases in ocean temperature. 

Step 4: Interpret and Evaluate Your Investigation

Reliability and validity.

Here you must elaborate on the reliability and validity of the investigation.

Reliability relates to the data, so you can discuss things like the uncertainty of the data or any error that may impact the ability to draw a conclusion.

Validity, on the other hand, refers to the methodology. If the methodology wasn’t appropriate then you cannot draw a valid conclusion as the investigation won’t produce results that are relevant to what you are examining. 

To get top marks, you must have a “justified” discussion of the reliability and validity of the investigation. This means talking about how the limitations don’t stop you from being able to draw a causal conclusion. 

For example: It has been identified that the data lacks inter-rater reliability, due to the high degree of dispersion – indicating a lack of consistency. However, the results are reliable in that they hold statistical significance. This is observed in the t-tests and in the fact that the error bars do not overlap – furthermore, most error bars are quite infinitesimal relative to the size of the means. The validity is strong as the methodology allows for the accurate identification of fish species (ultimately ensuring the content validity of the results).

Improvements and Extensions

In this section, you address any limitations to the investigation that you identified in the limitations section. If there are any ways to improve the reliability or validity of the investigation, then you should state that here.

Further, you should discuss how this investigation can be extended further to investigate something new or fill any other gaps in knowledge that were uncovered during this investigation. 

According to QCAA, to get top marks in your Biology Student Experiment, you must suggest improvements and extensions that are “logically derived” from your analysis of the evidence. You can achieve this by ensuring each of the limitations you identify in the limitations section maps to an improvement in this section. 

QCAA Biology Student Experiment example: Suggested improvements that will enhance the reliability and validity of the data and methodology include: using crustaceous bait (in order to better attract P. sexlineatus), collecting data from various localities in Easter Australia (so as to examine whether the high level of dispersion is typical) … Extensions include: examining how other abiotic factors (also influenced by climate change) affect the abundance of species (i.e. ocean acidity), and investigating the impact climate change has on species residing in intertidal zones. 

For the sections in steps 3 and 4, the following criteria are being assessed:

Interested in what IA2 mark you need to get an ATAR 90+?

Step 5: Write Your Conclusion

Here, you simply summarise the results and your answer to the research question.

For example: Between 2015 and 2018, it can be deduced that Moreton Bay’s abundance of P. sexlineatus has been negatively impacted by climate change – due to its effects on water temperature (notably, causing increases in temperature). This is due to the fact that increased temperatures result in behavioural changes in ectothermic species. 

Step 6: Include a Reference List In Your Student Experiment

For example: 

Note: this exemplar uses APA style referencing. 

Step 7: Include an Appendix

Here you can include raw data and any calculations you have performed. This section is not marked, nor does it contribute to the word count. However, this section allows you to include any supplementary information to aid your report. 

For example:

Want to see why Term 2 is one of the most important terms of the QCE for so many students? Read why here!

There you have it!

We’ve given you a step-by-step guide on how your student experiment report for QCAA Biology should be structured. Hopefully you’re feeling way more confident to complete your task now!

If you’ve been looking for other resources to help you study for QCAA Biology, here are some you can access:

• Unit 3 Biology Data Test IA1 Practice Questions
• Unit 3 & 4 Biology External Assessment Practice Questions
• Unit 3 & 4 Biology External Assessment Multiple Choice Practice Questions
• The Essential List of QCE Biology Terms You Need to Know for Unit 3
• The Ultimate Guide to QCE Biology Unit 3: Biodiversity and the Interconnectedness of Life

Are you looking for some extra help with the Student Experiment for QCAA Biology?

We have an incredible team of qld biology tutors and mentors.

We can help you master the QCAA Biology syllabus and ace your upcoming Biology assessments with personalised lessons conducted one-on-one in your home or online!

Need a tutor on the Gold Coast region ? We’ve got you!

We’ve supported over  8,000 students over the last 11 years , and on average our students score mark improvements of over 20%!

We offer support for regional areas too! Check out our expert Townsville tutoring team !

To find out more and get started with an inspirational QLD tutor and mentor,   get in touch today  or give us a ring on  1300 267 888!

Katelyn Smith  was a pioneer in the Queensland ATAR system. After graduating in 2020 with an ATAR of 98.40, she now studies a Bachelor of Advanced Science (Honours) at The University of Queensland — majoring in Physics. Through her studies, she hopes to develop a greater appreciation for how the wonders of the universe work. When she isn’t slaving away behind her unnecessarily large textbooks, she enjoys catching up with friends, scrolling mindlessly through TikTok, and sleeping.

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Biology Research Topics

Are you in need of captivating and achievable research topics within the field of biology? Your quest for the best biology topics ends right here as this article furnishes you with 100 distinctive and original concepts for biology research, laying the groundwork for your research endeavor.

Table of Contents

Our proficient researchers have thoughtfully curated these biology research themes, considering the substantial body of literature accessible and the prevailing gaps in research.

Should none of these topics elicit enthusiasm, our specialists are equally capable of proposing tailor-made research ideas in biology, finely tuned to cater to your requirements. 

Thus, without further delay, we present our compilation of biology research topics crafted to accommodate students and researchers.

Research Topics in Marine Biology

• Impact of climate change on coral reef ecosystems.
• Biodiversity and adaptation of deep-sea organisms.
• Effects of pollution on marine life and ecosystems.
• Role of marine protected areas in conserving biodiversity.
• Microplastics in marine environments: sources, impacts, and mitigation.

Biological Anthropology Research Topics

• Evolutionary implications of early human migration patterns.
• Genetic and environmental factors influencing human height variation.
• Cultural evolution and its impact on human societies.
• Paleoanthropological insights into human dietary adaptations.
• Genetic diversity and population history of indigenous communities.

Biological Psychology Research Topics 

• Neurobiological basis of addiction and its treatment.
• Impact of stress on brain structure and function.
• Genetic and environmental influences on mental health disorders.
• Neural mechanisms underlying emotions and emotional regulation.
• Role of the gut-brain axis in psychological well-being.

Cancer Biology Research Topics 

• Targeted therapies in precision cancer medicine.
• Tumor microenvironment and its influence on cancer progression.
• Epigenetic modifications in cancer development and therapy.
• Immune checkpoint inhibitors and their role in cancer immunotherapy.
• Early detection and diagnosis strategies for various types of cancer.

Also read: Cancer research topics

Cell Biology Research Topics

• Mechanisms of autophagy and its implications in health and disease.
• Intracellular transport and organelle dynamics in cell function.
• Role of cell signaling pathways in cellular response to external stimuli.
• Cell cycle regulation and its relevance to cancer development.
• Cellular mechanisms of apoptosis and programmed cell death.

Developmental Biology Research Topics 

• Genetic and molecular basis of limb development in vertebrates.
• Evolution of embryonic development and its impact on morphological diversity.
• Stem cell therapy and regenerative medicine approaches.
• Mechanisms of organogenesis and tissue regeneration in animals.
• Role of non-coding RNAs in developmental processes.

Also read: Education research topics

Human Biology Research Topics

• Genetic factors influencing susceptibility to infectious diseases.
• Human microbiome and its impact on health and disease.
• Genetic basis of rare and common human diseases.
• Genetic and environmental factors contributing to aging.
• Impact of lifestyle and diet on human health and longevity.

Molecular Biology Research Topics 

• CRISPR-Cas gene editing technology and its applications.
• Non-coding RNAs as regulators of gene expression.
• Role of epigenetics in gene regulation and disease.
• Mechanisms of DNA repair and genome stability.
• Molecular basis of cellular metabolism and energy production.

Research Topics in Biology for Undergraduates

• 41. Investigating the effects of pollutants on local plant species.
• Microbial diversity and ecosystem functioning in a specific habitat.
• Understanding the genetics of antibiotic resistance in bacteria.
• Impact of urbanization on bird populations and biodiversity.
• Investigating the role of pheromones in insect communication.

Also read: Psychology Research Topics

Synthetic Biology Research Topics 

• Design and construction of synthetic biological circuits.
• Synthetic biology applications in biofuel production.
• Ethical considerations in synthetic biology research and applications.
• Synthetic biology approaches to engineering novel enzymes.
• Creating synthetic organisms with modified functions and capabilities.

Animal Biology Research Topics 

• Evolution of mating behaviors in animal species.
• Genetic basis of color variation in butterfly wings.
• Impact of habitat fragmentation on amphibian populations.
• Behavior and communication in social insect colonies.
• Adaptations of marine mammals to aquatic environments.

Also read: Nursing research topics

Best Biology Research Topics 

• Unraveling the mysteries of circadian rhythms in organisms.
• Investigating the ecological significance of cryptic coloration.
• Evolution of venomous animals and their prey.
• The role of endosymbiosis in the evolution of eukaryotic cells.
• Exploring the potential of extremophiles in biotechnology.

Biological Psychology Research Paper Topics

• Neurobiological mechanisms underlying memory formation.
• Impact of sleep disorders on cognitive function and mental health.
• Biological basis of personality traits and behavior.
• Neural correlates of emotions and emotional disorders.
• Role of neuroplasticity in brain recovery after injury.

Biological Science Research Topics: 

• Role of gut microbiota in immune system development.
• Molecular mechanisms of gene regulation during development.
• Impact of climate change on insect population dynamics.
• Genetic basis of neurodegenerative diseases like Alzheimer’s.
• Evolutionary relationships among vertebrate species based on DNA analysis.

Biology Education Research Topics 

• Effectiveness of inquiry-based learning in biology classrooms.
• Assessing the impact of virtual labs on student understanding of biology concepts.
• Gender disparities in science education and strategies for closing the gap.
• Role of outdoor education in enhancing students’ ecological awareness.
• Integrating technology in biology education: challenges and opportunities.

Biology-Related Research Topics

• The intersection of ecology and economics in conservation planning.
• Molecular basis of antibiotic resistance in pathogenic bacteria.
• Implications of genetic modification of crops for food security.
• Evolutionary perspectives on cooperation and altruism in animal behavior.
• Environmental impacts of genetically modified organisms (GMOs).

Biology Research Proposal Topics

• Investigating the role of microRNAs in cancer progression.
• Exploring the effects of pollution on aquatic biodiversity.
• Developing a gene therapy approach for a genetic disorder.
• Assessing the potential of natural compounds as anti-inflammatory agents.
• Studying the molecular basis of cellular senescence and aging.

Biology Research Topic Ideas

• Role of pheromones in insect mate selection and behavior.
• Investigating the molecular basis of neurodevelopmental disorders.
• Impact of climate change on plant-pollinator interactions.
• Genetic diversity and conservation of endangered species.
• Evolutionary patterns in mimicry and camouflage in organisms.

Biology Research Topics for Undergraduates 

• Effects of different fertilizers on plant growth and soil health.
• Investigating the biodiversity of a local freshwater ecosystem.
• Evolutionary origins of a specific animal adaptation.
• Genetic diversity and disease susceptibility in human populations.
• Role of specific genes in regulating the immune response.

Cell and Molecular Biology Research Topics 

• Molecular mechanisms of DNA replication and repair.
• Role of microRNAs in post-transcriptional gene regulation.
• Investigating the cell cycle and its control mechanisms.
• Molecular basis of mitochondrial diseases and therapies.
• Cellular responses to oxidative stress and their implications in ageing.

These topics cover a broad range of subjects within biology, offering plenty of options for research projects. Remember that you can further refine these topics based on your specific interests and research goals.

Frequently Asked Questions 

What are some good research topics in biology?

A good research topic in biology will address a specific problem in any of the several areas of biology, such as marine biology, molecular biology, cellular biology, animal biology, or cancer biology.

A topic that enables you to investigate a problem in any area of biology will help you make a meaningful contribution. 

How to choose a research topic in biology?

Choosing a research topic in biology is simple. 

Follow the steps:

• Generate potential topics. 
• Consider your areas of knowledge and personal passions. 
• Conduct a thorough review of existing literature.
•  Evaluate the practicality and viability. 
• Narrow down and refine your research query. 
• Remain receptive to new ideas and suggestions.

Who Are We?

For several years, Research Prospect has been offering students around the globe complimentary research topic suggestions. We aim to assist students in choosing a research topic that is both suitable and feasible for their project, leading to the attainment of their desired grades. Explore how our services, including research proposal writing , dissertation outline creation, and comprehensive thesis writing , can contribute to your college’s success.

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Focus: Education — Career Advice

How to write your first research paper.

Writing a research manuscript is an intimidating process for many novice writers in the sciences. One of the stumbling blocks is the beginning of the process and creating the first draft. This paper presents guidelines on how to initiate the writing process and draft each section of a research manuscript. The paper discusses seven rules that allow the writer to prepare a well-structured and comprehensive manuscript for a publication submission. In addition, the author lists different strategies for successful revision. Each of those strategies represents a step in the revision process and should help the writer improve the quality of the manuscript. The paper could be considered a brief manual for publication.

It is late at night. You have been struggling with your project for a year. You generated an enormous amount of interesting data. Your pipette feels like an extension of your hand, and running western blots has become part of your daily routine, similar to brushing your teeth. Your colleagues think you are ready to write a paper, and your lab mates tease you about your “slow” writing progress. Yet days pass, and you cannot force yourself to sit down to write. You have not written anything for a while (lab reports do not count), and you feel you have lost your stamina. How does the writing process work? How can you fit your writing into a daily schedule packed with experiments? What section should you start with? What distinguishes a good research paper from a bad one? How should you revise your paper? These and many other questions buzz in your head and keep you stressed. As a result, you procrastinate. In this paper, I will discuss the issues related to the writing process of a scientific paper. Specifically, I will focus on the best approaches to start a scientific paper, tips for writing each section, and the best revision strategies.

1. Schedule your writing time in Outlook

Whether you have written 100 papers or you are struggling with your first, starting the process is the most difficult part unless you have a rigid writing schedule. Writing is hard. It is a very difficult process of intense concentration and brain work. As stated in Hayes’ framework for the study of writing: “It is a generative activity requiring motivation, and it is an intellectual activity requiring cognitive processes and memory” [ 1 ]. In his book How to Write a Lot: A Practical Guide to Productive Academic Writing , Paul Silvia says that for some, “it’s easier to embalm the dead than to write an article about it” [ 2 ]. Just as with any type of hard work, you will not succeed unless you practice regularly. If you have not done physical exercises for a year, only regular workouts can get you into good shape again. The same kind of regular exercises, or I call them “writing sessions,” are required to be a productive author. Choose from 1- to 2-hour blocks in your daily work schedule and consider them as non-cancellable appointments. When figuring out which blocks of time will be set for writing, you should select the time that works best for this type of work. For many people, mornings are more productive. One Yale University graduate student spent a semester writing from 8 a.m. to 9 a.m. when her lab was empty. At the end of the semester, she was amazed at how much she accomplished without even interrupting her regular lab hours. In addition, doing the hardest task first thing in the morning contributes to the sense of accomplishment during the rest of the day. This positive feeling spills over into our work and life and has a very positive effect on our overall attitude.

Rule 1: Create regular time blocks for writing as appointments in your calendar and keep these appointments.

2. start with an outline.

Now that you have scheduled time, you need to decide how to start writing. The best strategy is to start with an outline. This will not be an outline that you are used to, with Roman numerals for each section and neat parallel listing of topic sentences and supporting points. This outline will be similar to a template for your paper. Initially, the outline will form a structure for your paper; it will help generate ideas and formulate hypotheses. Following the advice of George M. Whitesides, “. . . start with a blank piece of paper, and write down, in any order, all important ideas that occur to you concerning the paper” [ 3 ]. Use Table 1 as a starting point for your outline. Include your visuals (figures, tables, formulas, equations, and algorithms), and list your findings. These will constitute the first level of your outline, which will eventually expand as you elaborate.

The next stage is to add context and structure. Here you will group all your ideas into sections: Introduction, Methods, Results, and Discussion/Conclusion ( Table 2 ). This step will help add coherence to your work and sift your ideas.

Now that you have expanded your outline, you are ready for the next step: discussing the ideas for your paper with your colleagues and mentor. Many universities have a writing center where graduate students can schedule individual consultations and receive assistance with their paper drafts. Getting feedback during early stages of your draft can save a lot of time. Talking through ideas allows people to conceptualize and organize thoughts to find their direction without wasting time on unnecessary writing. Outlining is the most effective way of communicating your ideas and exchanging thoughts. Moreover, it is also the best stage to decide to which publication you will submit the paper. Many people come up with three choices and discuss them with their mentors and colleagues. Having a list of journal priorities can help you quickly resubmit your paper if your paper is rejected.

Rule 2: Create a detailed outline and discuss it with your mentor and peers.

3. continue with drafts.

After you get enough feedback and decide on the journal you will submit to, the process of real writing begins. Copy your outline into a separate file and expand on each of the points, adding data and elaborating on the details. When you create the first draft, do not succumb to the temptation of editing. Do not slow down to choose a better word or better phrase; do not halt to improve your sentence structure. Pour your ideas into the paper and leave revision and editing for later. As Paul Silvia explains, “Revising while you generate text is like drinking decaffeinated coffee in the early morning: noble idea, wrong time” [ 2 ].

Many students complain that they are not productive writers because they experience writer’s block. Staring at an empty screen is frustrating, but your screen is not really empty: You have a template of your article, and all you need to do is fill in the blanks. Indeed, writer’s block is a logical fallacy for a scientist ― it is just an excuse to procrastinate. When scientists start writing a research paper, they already have their files with data, lab notes with materials and experimental designs, some visuals, and tables with results. All they need to do is scrutinize these pieces and put them together into a comprehensive paper.

3.1. Starting with Materials and Methods

If you still struggle with starting a paper, then write the Materials and Methods section first. Since you have all your notes, it should not be problematic for you to describe the experimental design and procedures. Your most important goal in this section is to be as explicit as possible by providing enough detail and references. In the end, the purpose of this section is to allow other researchers to evaluate and repeat your work. So do not run into the same problems as the writers of the sentences in (1):

1a. Bacteria were pelleted by centrifugation. 1b. To isolate T cells, lymph nodes were collected.

As you can see, crucial pieces of information are missing: the speed of centrifuging your bacteria, the time, and the temperature in (1a); the source of lymph nodes for collection in (b). The sentences can be improved when information is added, as in (2a) and (2b), respectfully:

2a. Bacteria were pelleted by centrifugation at 3000g for 15 min at 25°C. 2b. To isolate T cells, mediastinal and mesenteric lymph nodes from Balb/c mice were collected at day 7 after immunization with ovabumin.

If your method has previously been published and is well-known, then you should provide only the literature reference, as in (3a). If your method is unpublished, then you need to make sure you provide all essential details, as in (3b).

3a. Stem cells were isolated, according to Johnson [23]. 3b. Stem cells were isolated using biotinylated carbon nanotubes coated with anti-CD34 antibodies.

Furthermore, cohesion and fluency are crucial in this section. One of the malpractices resulting in disrupted fluency is switching from passive voice to active and vice versa within the same paragraph, as shown in (4). This switching misleads and distracts the reader.

4. Behavioral computer-based experiments of Study 1 were programmed by using E-Prime. We took ratings of enjoyment, mood, and arousal as the patients listened to preferred pleasant music and unpreferred music by using Visual Analogue Scales (SI Methods). The preferred and unpreferred status of the music was operationalized along a continuum of pleasantness [ 4 ].

The problem with (4) is that the reader has to switch from the point of view of the experiment (passive voice) to the point of view of the experimenter (active voice). This switch causes confusion about the performer of the actions in the first and the third sentences. To improve the coherence and fluency of the paragraph above, you should be consistent in choosing the point of view: first person “we” or passive voice [ 5 ]. Let’s consider two revised examples in (5).

5a. We programmed behavioral computer-based experiments of Study 1 by using E-Prime. We took ratings of enjoyment, mood, and arousal by using Visual Analogue Scales (SI Methods) as the patients listened to preferred pleasant music and unpreferred music. We operationalized the preferred and unpreferred status of the music along a continuum of pleasantness. 5b. Behavioral computer-based experiments of Study 1 were programmed by using E-Prime. Ratings of enjoyment, mood, and arousal were taken as the patients listened to preferred pleasant music and unpreferred music by using Visual Analogue Scales (SI Methods). The preferred and unpreferred status of the music was operationalized along a continuum of pleasantness.

If you choose the point of view of the experimenter, then you may end up with repetitive “we did this” sentences. For many readers, paragraphs with sentences all beginning with “we” may also sound disruptive. So if you choose active sentences, you need to keep the number of “we” subjects to a minimum and vary the beginnings of the sentences [ 6 ].

Interestingly, recent studies have reported that the Materials and Methods section is the only section in research papers in which passive voice predominantly overrides the use of the active voice [ 5 , 7 , 8 , 9 ]. For example, Martínez shows a significant drop in active voice use in the Methods sections based on the corpus of 1 million words of experimental full text research articles in the biological sciences [ 7 ]. According to the author, the active voice patterned with “we” is used only as a tool to reveal personal responsibility for the procedural decisions in designing and performing experimental work. This means that while all other sections of the research paper use active voice, passive voice is still the most predominant in Materials and Methods sections.

Writing Materials and Methods sections is a meticulous and time consuming task requiring extreme accuracy and clarity. This is why when you complete your draft, you should ask for as much feedback from your colleagues as possible. Numerous readers of this section will help you identify the missing links and improve the technical style of this section.

Rule 3: Be meticulous and accurate in describing the Materials and Methods. Do not change the point of view within one paragraph.

3.2. writing results section.

For many authors, writing the Results section is more intimidating than writing the Materials and Methods section . If people are interested in your paper, they are interested in your results. That is why it is vital to use all your writing skills to objectively present your key findings in an orderly and logical sequence using illustrative materials and text.

Your Results should be organized into different segments or subsections where each one presents the purpose of the experiment, your experimental approach, data including text and visuals (tables, figures, schematics, algorithms, and formulas), and data commentary. For most journals, your data commentary will include a meaningful summary of the data presented in the visuals and an explanation of the most significant findings. This data presentation should not repeat the data in the visuals, but rather highlight the most important points. In the “standard” research paper approach, your Results section should exclude data interpretation, leaving it for the Discussion section. However, interpretations gradually and secretly creep into research papers: “Reducing the data, generalizing from the data, and highlighting scientific cases are all highly interpretive processes. It should be clear by now that we do not let the data speak for themselves in research reports; in summarizing our results, we interpret them for the reader” [ 10 ]. As a result, many journals including the Journal of Experimental Medicine and the Journal of Clinical Investigation use joint Results/Discussion sections, where results are immediately followed by interpretations.

Another important aspect of this section is to create a comprehensive and supported argument or a well-researched case. This means that you should be selective in presenting data and choose only those experimental details that are essential for your reader to understand your findings. You might have conducted an experiment 20 times and collected numerous records, but this does not mean that you should present all those records in your paper. You need to distinguish your results from your data and be able to discard excessive experimental details that could distract and confuse the reader. However, creating a picture or an argument should not be confused with data manipulation or falsification, which is a willful distortion of data and results. If some of your findings contradict your ideas, you have to mention this and find a plausible explanation for the contradiction.

In addition, your text should not include irrelevant and peripheral information, including overview sentences, as in (6).

6. To show our results, we first introduce all components of experimental system and then describe the outcome of infections.

Indeed, wordiness convolutes your sentences and conceals your ideas from readers. One common source of wordiness is unnecessary intensifiers. Adverbial intensifiers such as “clearly,” “essential,” “quite,” “basically,” “rather,” “fairly,” “really,” and “virtually” not only add verbosity to your sentences, but also lower your results’ credibility. They appeal to the reader’s emotions but lower objectivity, as in the common examples in (7):

7a. Table 3 clearly shows that … 7b. It is obvious from figure 4 that …

Another source of wordiness is nominalizations, i.e., nouns derived from verbs and adjectives paired with weak verbs including “be,” “have,” “do,” “make,” “cause,” “provide,” and “get” and constructions such as “there is/are.”

8a. We tested the hypothesis that there is a disruption of membrane asymmetry. 8b. In this paper we provide an argument that stem cells repopulate injured organs.

In the sentences above, the abstract nominalizations “disruption” and “argument” do not contribute to the clarity of the sentences, but rather clutter them with useless vocabulary that distracts from the meaning. To improve your sentences, avoid unnecessary nominalizations and change passive verbs and constructions into active and direct sentences.

9a. We tested the hypothesis that the membrane asymmetry is disrupted. 9b. In this paper we argue that stem cells repopulate injured organs.

Your Results section is the heart of your paper, representing a year or more of your daily research. So lead your reader through your story by writing direct, concise, and clear sentences.

Rule 4: Be clear, concise, and objective in describing your Results.

3.3. now it is time for your introduction.

Now that you are almost half through drafting your research paper, it is time to update your outline. While describing your Methods and Results, many of you diverged from the original outline and re-focused your ideas. So before you move on to create your Introduction, re-read your Methods and Results sections and change your outline to match your research focus. The updated outline will help you review the general picture of your paper, the topic, the main idea, and the purpose, which are all important for writing your introduction.

The best way to structure your introduction is to follow the three-move approach shown in Table 3 .

Adapted from Swales and Feak [ 11 ].

The moves and information from your outline can help to create your Introduction efficiently and without missing steps. These moves are traffic signs that lead the reader through the road of your ideas. Each move plays an important role in your paper and should be presented with deep thought and care. When you establish the territory, you place your research in context and highlight the importance of your research topic. By finding the niche, you outline the scope of your research problem and enter the scientific dialogue. The final move, “occupying the niche,” is where you explain your research in a nutshell and highlight your paper’s significance. The three moves allow your readers to evaluate their interest in your paper and play a significant role in the paper review process, determining your paper reviewers.

Some academic writers assume that the reader “should follow the paper” to find the answers about your methodology and your findings. As a result, many novice writers do not present their experimental approach and the major findings, wrongly believing that the reader will locate the necessary information later while reading the subsequent sections [ 5 ]. However, this “suspense” approach is not appropriate for scientific writing. To interest the reader, scientific authors should be direct and straightforward and present informative one-sentence summaries of the results and the approach.

Another problem is that writers understate the significance of the Introduction. Many new researchers mistakenly think that all their readers understand the importance of the research question and omit this part. However, this assumption is faulty because the purpose of the section is not to evaluate the importance of the research question in general. The goal is to present the importance of your research contribution and your findings. Therefore, you should be explicit and clear in describing the benefit of the paper.

The Introduction should not be long. Indeed, for most journals, this is a very brief section of about 250 to 600 words, but it might be the most difficult section due to its importance.

Rule 5: Interest your reader in the Introduction section by signalling all its elements and stating the novelty of the work.

3.4. discussion of the results.

For many scientists, writing a Discussion section is as scary as starting a paper. Most of the fear comes from the variation in the section. Since every paper has its unique results and findings, the Discussion section differs in its length, shape, and structure. However, some general principles of writing this section still exist. Knowing these rules, or “moves,” can change your attitude about this section and help you create a comprehensive interpretation of your results.

The purpose of the Discussion section is to place your findings in the research context and “to explain the meaning of the findings and why they are important, without appearing arrogant, condescending, or patronizing” [ 11 ]. The structure of the first two moves is almost a mirror reflection of the one in the Introduction. In the Introduction, you zoom in from general to specific and from the background to your research question; in the Discussion section, you zoom out from the summary of your findings to the research context, as shown in Table 4 .

Adapted from Swales and Feak and Hess [ 11 , 12 ].

The biggest challenge for many writers is the opening paragraph of the Discussion section. Following the moves in Table 1 , the best choice is to start with the study’s major findings that provide the answer to the research question in your Introduction. The most common starting phrases are “Our findings demonstrate . . .,” or “In this study, we have shown that . . .,” or “Our results suggest . . .” In some cases, however, reminding the reader about the research question or even providing a brief context and then stating the answer would make more sense. This is important in those cases where the researcher presents a number of findings or where more than one research question was presented. Your summary of the study’s major findings should be followed by your presentation of the importance of these findings. One of the most frequent mistakes of the novice writer is to assume the importance of his findings. Even if the importance is clear to you, it may not be obvious to your reader. Digesting the findings and their importance to your reader is as crucial as stating your research question.

Another useful strategy is to be proactive in the first move by predicting and commenting on the alternative explanations of the results. Addressing potential doubts will save you from painful comments about the wrong interpretation of your results and will present you as a thoughtful and considerate researcher. Moreover, the evaluation of the alternative explanations might help you create a logical step to the next move of the discussion section: the research context.

The goal of the research context move is to show how your findings fit into the general picture of the current research and how you contribute to the existing knowledge on the topic. This is also the place to discuss any discrepancies and unexpected findings that may otherwise distort the general picture of your paper. Moreover, outlining the scope of your research by showing the limitations, weaknesses, and assumptions is essential and adds modesty to your image as a scientist. However, make sure that you do not end your paper with the problems that override your findings. Try to suggest feasible explanations and solutions.

If your submission does not require a separate Conclusion section, then adding another paragraph about the “take-home message” is a must. This should be a general statement reiterating your answer to the research question and adding its scientific implications, practical application, or advice.

Just as in all other sections of your paper, the clear and precise language and concise comprehensive sentences are vital. However, in addition to that, your writing should convey confidence and authority. The easiest way to illustrate your tone is to use the active voice and the first person pronouns. Accompanied by clarity and succinctness, these tools are the best to convince your readers of your point and your ideas.

Rule 6: Present the principles, relationships, and generalizations in a concise and convincing tone.

4. choosing the best working revision strategies.

Now that you have created the first draft, your attitude toward your writing should have improved. Moreover, you should feel more confident that you are able to accomplish your project and submit your paper within a reasonable timeframe. You also have worked out your writing schedule and followed it precisely. Do not stop ― you are only at the midpoint from your destination. Just as the best and most precious diamond is no more than an unattractive stone recognized only by trained professionals, your ideas and your results may go unnoticed if they are not polished and brushed. Despite your attempts to present your ideas in a logical and comprehensive way, first drafts are frequently a mess. Use the advice of Paul Silvia: “Your first drafts should sound like they were hastily translated from Icelandic by a non-native speaker” [ 2 ]. The degree of your success will depend on how you are able to revise and edit your paper.

The revision can be done at the macrostructure and the microstructure levels [ 13 ]. The macrostructure revision includes the revision of the organization, content, and flow. The microstructure level includes individual words, sentence structure, grammar, punctuation, and spelling.

The best way to approach the macrostructure revision is through the outline of the ideas in your paper. The last time you updated your outline was before writing the Introduction and the Discussion. Now that you have the beginning and the conclusion, you can take a bird’s-eye view of the whole paper. The outline will allow you to see if the ideas of your paper are coherently structured, if your results are logically built, and if the discussion is linked to the research question in the Introduction. You will be able to see if something is missing in any of the sections or if you need to rearrange your information to make your point.

The next step is to revise each of the sections starting from the beginning. Ideally, you should limit yourself to working on small sections of about five pages at a time [ 14 ]. After these short sections, your eyes get used to your writing and your efficiency in spotting problems decreases. When reading for content and organization, you should control your urge to edit your paper for sentence structure and grammar and focus only on the flow of your ideas and logic of your presentation. Experienced researchers tend to make almost three times the number of changes to meaning than novice writers [ 15 , 16 ]. Revising is a difficult but useful skill, which academic writers obtain with years of practice.

In contrast to the macrostructure revision, which is a linear process and is done usually through a detailed outline and by sections, microstructure revision is a non-linear process. While the goal of the macrostructure revision is to analyze your ideas and their logic, the goal of the microstructure editing is to scrutinize the form of your ideas: your paragraphs, sentences, and words. You do not need and are not recommended to follow the order of the paper to perform this type of revision. You can start from the end or from different sections. You can even revise by reading sentences backward, sentence by sentence and word by word.

One of the microstructure revision strategies frequently used during writing center consultations is to read the paper aloud [ 17 ]. You may read aloud to yourself, to a tape recorder, or to a colleague or friend. When reading and listening to your paper, you are more likely to notice the places where the fluency is disrupted and where you stumble because of a very long and unclear sentence or a wrong connector.

Another revision strategy is to learn your common errors and to do a targeted search for them [ 13 ]. All writers have a set of problems that are specific to them, i.e., their writing idiosyncrasies. Remembering these problems is as important for an academic writer as remembering your friends’ birthdays. Create a list of these idiosyncrasies and run a search for these problems using your word processor. If your problem is demonstrative pronouns without summary words, then search for “this/these/those” in your text and check if you used the word appropriately. If you have a problem with intensifiers, then search for “really” or “very” and delete them from the text. The same targeted search can be done to eliminate wordiness. Searching for “there is/are” or “and” can help you avoid the bulky sentences.

The final strategy is working with a hard copy and a pencil. Print a double space copy with font size 14 and re-read your paper in several steps. Try reading your paper line by line with the rest of the text covered with a piece of paper. When you are forced to see only a small portion of your writing, you are less likely to get distracted and are more likely to notice problems. You will end up spotting more unnecessary words, wrongly worded phrases, or unparallel constructions.

After you apply all these strategies, you are ready to share your writing with your friends, colleagues, and a writing advisor in the writing center. Get as much feedback as you can, especially from non-specialists in your field. Patiently listen to what others say to you ― you are not expected to defend your writing or explain what you wanted to say. You may decide what you want to change and how after you receive the feedback and sort it in your head. Even though some researchers make the revision an endless process and can hardly stop after a 14th draft; having from five to seven drafts of your paper is a norm in the sciences. If you can’t stop revising, then set a deadline for yourself and stick to it. Deadlines always help.

Rule 7: Revise your paper at the macrostructure and the microstructure level using different strategies and techniques. Receive feedback and revise again.

5. it is time to submit.

It is late at night again. You are still in your lab finishing revisions and getting ready to submit your paper. You feel happy ― you have finally finished a year’s worth of work. You will submit your paper tomorrow, and regardless of the outcome, you know that you can do it. If one journal does not take your paper, you will take advantage of the feedback and resubmit again. You will have a publication, and this is the most important achievement.

What is even more important is that you have your scheduled writing time that you are going to keep for your future publications, for reading and taking notes, for writing grants, and for reviewing papers. You are not going to lose stamina this time, and you will become a productive scientist. But for now, let’s celebrate the end of the paper.

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Research Question

• Write a preliminary research question. Try to incorporate an IB command term in the student research question.
• Make a list of the steps necessary to carry out the research required for writing the IB Extended Essay - choosing the subject and topic, doing the required reading of IB rules and guidelines, writing the initial research question, and more.

RQ Resources:

Steps to Developing a Research Question

Practice Exercise:  Formulating Well-Focused Research Questions

IB Command Terms and Glossaries

Research Question Formats for History Extended Essays

Developing a Research Question

The chosen a subject and topic that interests the student and carried out some preliminary reading.  What are the next steps?

• Consider the emerging questions. The student should now begin posing open-ended questions about the student topic.  These questions will usually be framed "how", "why", or "to what extent."
• Evaluate the question.   Once the student has posed possible research questions the student should evaluate them.  This evaluation should be based on whether the question is clear , focused , and arguable .
• Clear  - Will the reader understand the nature of my research?  Will it direct the research being undertaken?
• Focused - Will the research question be specific enough to allow for exploration within the scope of the task (that is, the number of words and time available)?
• Arguable - Does the research question allow for analysis, evaluation and the development of a reasoned argument?
• Consider research outcomes. Once the student has decided on a research question, the student should start thinking about the direction the research might take.  The student could do this by:
• suggesting possible outcomes of the student research
• outlining the type of argument, the student might make and how the student research might support this
• considering options if the research available is not sufficient to support a sustained argument

Sample Research Questions The table below gives some examples showing the difference between unclear and unfocused research.

Practice exercise: Formulating well-focused research questions

Developing a narrow, focused research question is an integral part of the extended essay process. A research question will provide a path to guide the student through the student research and writing.

The student must now start some preliminary reading around the issue or topic. Remember that the student will most likely need to revise the research question once the student start to undertake the research. In this sense the research question should always be considered provisional until the student has enough research data to make a reasoned argument.

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Methodology

• How to Write a Strong Hypothesis | Steps & Examples

How to Write a Strong Hypothesis | Steps & Examples

Published on May 6, 2022 by Shona McCombes . Revised on November 20, 2023.

A hypothesis is a statement that can be tested by scientific research. If you want to test a relationship between two or more variables, you need to write hypotheses before you start your experiment or data collection .

Example: Hypothesis

Daily apple consumption leads to fewer doctor’s visits.

Table of contents

What is a hypothesis, developing a hypothesis (with example), hypothesis examples, other interesting articles, frequently asked questions about writing hypotheses.

A hypothesis states your predictions about what your research will find. It is a tentative answer to your research question that has not yet been tested. For some research projects, you might have to write several hypotheses that address different aspects of your research question.

A hypothesis is not just a guess – it should be based on existing theories and knowledge. It also has to be testable, which means you can support or refute it through scientific research methods (such as experiments, observations and statistical analysis of data).

Variables in hypotheses

Hypotheses propose a relationship between two or more types of variables .

• An independent variable is something the researcher changes or controls.
• A dependent variable is something the researcher observes and measures.

If there are any control variables , extraneous variables , or confounding variables , be sure to jot those down as you go to minimize the chances that research bias  will affect your results.

In this example, the independent variable is exposure to the sun – the assumed cause . The dependent variable is the level of happiness – the assumed effect .

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Step 1. ask a question.

Writing a hypothesis begins with a research question that you want to answer. The question should be focused, specific, and researchable within the constraints of your project.

Step 2. Do some preliminary research

Your initial answer to the question should be based on what is already known about the topic. Look for theories and previous studies to help you form educated assumptions about what your research will find.

At this stage, you might construct a conceptual framework to ensure that you’re embarking on a relevant topic . This can also help you identify which variables you will study and what you think the relationships are between them. Sometimes, you’ll have to operationalize more complex constructs.

Step 3. Formulate your hypothesis

Now you should have some idea of what you expect to find. Write your initial answer to the question in a clear, concise sentence.

4. Refine your hypothesis

You need to make sure your hypothesis is specific and testable. There are various ways of phrasing a hypothesis, but all the terms you use should have clear definitions, and the hypothesis should contain:

• The relevant variables
• The specific group being studied
• The predicted outcome of the experiment or analysis

5. Phrase your hypothesis in three ways

To identify the variables, you can write a simple prediction in  if…then form. The first part of the sentence states the independent variable and the second part states the dependent variable.

In academic research, hypotheses are more commonly phrased in terms of correlations or effects, where you directly state the predicted relationship between variables.

If you are comparing two groups, the hypothesis can state what difference you expect to find between them.

6. Write a null hypothesis

If your research involves statistical hypothesis testing , you will also have to write a null hypothesis . The null hypothesis is the default position that there is no association between the variables. The null hypothesis is written as H 0 , while the alternative hypothesis is H 1 or H a .

• H 0 : The number of lectures attended by first-year students has no effect on their final exam scores.
• H 1 : The number of lectures attended by first-year students has a positive effect on their final exam scores.

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.

• Sampling methods
• 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

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A hypothesis is not just a guess — it should be based on existing theories and knowledge. It also has to be testable, which means you can support or refute it through scientific research methods (such as experiments, observations and statistical analysis of data).

Null and alternative hypotheses are used in statistical hypothesis testing . The null hypothesis of a test always predicts no effect or no relationship between variables, while the alternative hypothesis states your research prediction of an effect or relationship.

Hypothesis testing is a formal procedure for investigating our ideas about the world using statistics. It is used by scientists to test specific predictions, called hypotheses , by calculating how likely it is that a pattern or relationship between variables could have arisen by chance.

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How to Start a Research Project: A Step-by-Step Guide

Starting a research project can feel overwhelming, but breaking it down into manageable steps can make it easier. This guide will walk you through each stage, from choosing a topic to preparing for your final presentation. By following these steps, you'll be well on your way to completing a successful research project.

Key Takeaways

• Choose a topic that interests you and is feasible to research.
• Develop clear research questions and objectives to guide your study.
• Conduct a thorough literature review to understand the existing research.
• Create a detailed research plan with a timeline and methodology.
• Engage with stakeholders and incorporate their feedback throughout the project.

Choosing a Research Topic

Identifying research interests.

Start by thinking about what excites you. Pick a topic that you find fun and fulfilling . This will keep you motivated throughout your research. Make a list of subjects you enjoy and see how they can relate to your field of study.

Evaluating Topic Feasibility

Once you have a few ideas, check if they are too broad or too narrow. A good topic should be manageable within the time you have. Ask yourself if you can cover all aspects of the topic in your thesis.

Consulting with Advisors

If you have difficulty finding a topic, consult with your advisors. Present your ideas to them and seek their guidance. They can provide valuable insights and help you refine your topic to ensure it is both engaging and manageable.

Defining the Research Problem

Formulating research questions.

Once you have a topic, the next step is to formulate research questions . These questions should target what you want to find out. They can focus on describing, comparing, evaluating, or explaining the research problem. A strong research question should be specific enough to be answered thoroughly using appropriate methods. Avoid questions that can be answered with a simple "yes" or "no".

Justifying the Research Problem

After formulating your research questions, you need to justify why your research problem is important . Explain the significance of your research in the context of existing literature. Highlight the gaps your research aims to fill and how it will contribute to the field. This step is crucial for crafting a compelling research proposal.

Setting Research Objectives

Finally, set clear research objectives. These are the specific goals you aim to achieve through your research. They should align with your research questions and provide a roadmap for your study. Establishing well-defined objectives will make it easier to create a research plan and stay on track throughout the research process.

Conducting a Comprehensive Literature Review

Finding credible sources.

Start by gathering reliable sources for your research. Use academic databases, libraries, and journals to find books, articles, and papers related to your topic. Make sure to evaluate the credibility of each source. Primary sources like published articles or autobiographies are firsthand accounts, while secondary sources like critical reviews are more removed.

Analyzing Existing Research

Once you have your sources, read through them and take notes on key points. Look for different viewpoints and how they relate to your research question. This will help you understand the current state of research in your field. Skimming sources initially can save time; set aside useful ones for a full read later.

Identifying Research Gaps

Identify areas that haven't been explored or questions that haven't been answered. These gaps can provide a direction for your own research. For example, if you're studying the impact of WhatsApp on communication, look for what hasn't been covered in existing studies. This will make your research more valuable and original.

Developing a Detailed Research Plan

Creating a solid research plan is crucial for the success of your thesis . It helps you stay organized and ensures that you cover all necessary aspects of your research.

Engaging with Stakeholders

Identifying key stakeholders.

To start, you need to identify all the key stakeholders involved in your research project. Stakeholders can include funders, academic supervisors, and anyone who will be affected by your study. Identifying potential resistance early on can help you address concerns before they become major issues.

Conducting Stakeholder Meetings

Once you have identified your stakeholders, the next step is to conduct meetings with them. These meetings are crucial for understanding their needs and expectations. Here are some steps to ensure productive meetings:

• Identify all stakeholders : Make a list of everyone affected by your project, including customers and end users.
• Keep communication open: Regular updates and open discussions help in aligning everyone's expectations.
• Present your project plan: Explain how your plan addresses stakeholders' expectations and be open to feedback.
• Determine roles: Decide who needs to see which reports and how often, and identify which decisions need approval and by whom.

Incorporating Stakeholder Feedback

Engaging stakeholders allows organizations to identify potential sources of resistance early in the change process. Incorporating their feedback is essential for the success of your project. Make sure to document all feedback and adjust your research plan accordingly. This will not only improve the quality of your research but also ensure that all stakeholders are on board with your project.

Selecting Appropriate Research Methods

Qualitative vs Quantitative Methods

When choosing research methods , you need to decide between qualitative and quantitative approaches. Qualitative methods involve collecting non-numerical data, such as interviews and focus groups, to understand experiences and opinions. On the other hand, quantitative methods focus on numerical data and statistical analysis, like surveys and experiments. Sometimes, a mixed-method approach, combining both qualitative and quantitative techniques, can provide a more comprehensive understanding of your research problem.

Choosing Data Collection Tools

Selecting the right data collection tools is crucial for gathering accurate and reliable data. Common tools include:

• Surveys : Useful for collecting data from a large number of participants.
• Interviews : Provide in-depth insights through one-on-one conversations.
• Focus Groups : Gather diverse perspectives through group discussions.
• Observations : Allow you to study behaviors in natural settings.

Each tool has its strengths and weaknesses, so choose the one that best aligns with your research objectives.

Ensuring Ethical Compliance

Ethical compliance is a fundamental aspect of any research project. Make sure to obtain informed consent from all participants and ensure their privacy and confidentiality. Additionally, consider any potential risks to participants and take steps to minimize them. Ethical research not only protects participants but also enhances the credibility of your study.

Implementing the Research Plan

Data Collection Procedures

To start, you need to establish clear data collection procedures . This involves selecting the right tools and methods for gathering data. Whether you choose surveys, interviews, or experiments, ensure that your methods align with your research objectives. It's crucial to define the purpose of your project and identify research objectives before diving into data collection.

Data Analysis Techniques

Once data is collected, the next step is to analyze it. Choose appropriate data analysis techniques that suit your research design. This could involve statistical analysis for quantitative data or thematic analysis for qualitative data. Remember, the goal is to derive meaningful insights that address your research questions.

Maintaining Research Integrity

Maintaining research integrity is essential throughout the implementation phase. This means adhering to ethical guidelines, ensuring data accuracy, and avoiding any form of bias. By maintaining high standards, you ensure the credibility and reliability of your research findings.

Writing the Research Proposal

Structuring the proposal.

Creating a well-structured research proposal is essential for clearly communicating your research plan. Start with an introduction that outlines the background and significance of your study. Follow this with a literature review that situates your research within the existing body of work. Next, detail your research design and methodology, explaining how you will collect and analyze data. Finally, include a timeline and budget if required. A clear structure helps reviewers understand your research plan and its feasibility.

Articulating the Research Statement

Your research statement is the heart of your proposal. It should clearly define the problem you aim to address and why it is important. Make sure your statement is specific, measurable, and achievable. This will guide your entire research process and help you stay focused. A strong research statement is crucial for convincing reviewers of the value of your study.

Defining KPIs and Metrics

Key Performance Indicators (KPIs) and metrics are essential for measuring the success of your research. Identify the specific outcomes you aim to achieve and how you will measure them. Common metrics include data accuracy, response rates, and completion times. Including KPIs in your proposal shows that you have a clear plan for evaluating your research's impact.

Managing the Research Project

Setting milestones.

Creating a timeline with specific milestones is essential for tracking your progress. For example, aim to complete your literature review by the end of the first month. These milestones will help you stay on track and make adjustments as needed. Regularly review and update your timeline to reflect your current status and any changes in your schedule.

Tracking Progress

To ensure that you are meeting your milestones, it's important to track your progress consistently. Use tools like Gantt charts or project management software to visualize your progress. Regular check-ins with your team can also help identify any issues early on and keep everyone aligned with the project goals.

Adjusting the Plan as Needed

Flexibility is key in managing a research project. Unexpected challenges may arise, requiring you to adjust your plan. Be prepared to reallocate resources or extend deadlines if necessary. Consulting with your advisors can provide valuable insights and help you make informed decisions when adjustments are needed.

Drafting and Revising the Research Paper

Organizing the paper.

Start by creating a clear structure for your paper. This includes an introduction, body, and conclusion. Use a mind map or outline to group your ideas logically . This will help you stay organized and ensure that your paper flows smoothly.

Revising for Clarity and Coherence

Revising is a crucial part of the writing process. Read your paper out loud to catch any awkward sentences or unclear points. Make sure each paragraph supports your thesis statement and that your ideas are clearly organized. Don't hesitate to remove or revise sections that don't fit.

Maintaining Academic Integrity

Always cite your sources correctly to avoid plagiarism. Use a consistent citation style and double-check your references. This not only upholds academic standards but also enhances the credibility of your work.

Preparing for the Final Presentation

Creating visual aids.

Visual aids are essential for making your presentation engaging and easy to follow. Use slides, charts, and graphs to highlight key points . Ensure that your visuals are clear and not cluttered with too much information. Effective visual aids can make complex data more understandable and keep your audience engaged.

Practicing the Presentation

Practice is crucial for a successful presentation. Rehearse multiple times to get comfortable with the material and the flow of your talk. Consider practicing in front of friends or family to get feedback. This will help you refine your delivery and timing. Remember, the goal is to communicate your research clearly and confidently.

Handling Q&A Sessions

Anticipate questions that your audience might ask and prepare answers in advance. This will help you handle the Q&A session smoothly. Be honest if you don't know an answer and offer to follow up later. Handling questions well can demonstrate your deep understanding of the topic and leave a positive impression on your audience.

Getting ready for your final presentation can be nerve-wracking, but it doesn't have to be. Start by organizing your main points and practicing your delivery. Remember, confidence comes from preparation. For more tips and a step-by-step guide to ace your presentation, visit our website today !

Starting a research project may seem daunting, but breaking it down into manageable steps can make the process much more approachable. By clearly defining your research subject, engaging with stakeholders, crafting a precise research statement, and establishing key performance indicators, you set a strong foundation for your project. Choosing the right methodology and creating a detailed timeline will help ensure that your research is well-organized and on track. Remember, the key to a successful research project is thorough planning and consistent effort. With these steps, you can confidently navigate your research journey and achieve meaningful results.

Frequently Asked Questions

How do i choose a good research topic.

Start by thinking about what interests you. Pick a topic that you find fun and fulfilling. This will keep you motivated throughout your research. Make a list of subjects you enjoy and see how they can relate to your field of study.

What should I include in the introduction of my research paper?

Your introduction should set the stage for your research. Provide some background information and clearly state what your research will cover. This helps readers understand the context and significance of your work.

How do I create a timeline for my research project?

Break down your research into smaller tasks and assign time frames to each. This helps you manage your time and stay organized throughout the project. Use a table or chart to keep track of deadlines.

What is the best way to organize my research data?

Review the data you have and reorganize it so that the most important parts are central to your research. Set aside any information that is less relevant. Use digital folders or reference management software to keep everything organized.

How do I choose a thesis supervisor?

Look for a supervisor who is supportive and knowledgeable in your area of study. Good communication is key, so make sure you establish a good rapport with them from the start.

Where should I place my thesis statement?

A good place for your thesis statement is at the end of your introduction. This helps to clearly outline your main argument or point right from the start.

What should I do if I feel stuck during my research project?

If you feel stuck, take a break and revisit your work with fresh eyes. Talk to your advisor or peers for new perspectives. Sometimes, stepping away for a bit can help you see things more clearly.

How do I ensure my research is ethical?

Make sure your research complies with ethical guidelines. This includes getting consent from participants, ensuring their privacy, and being honest about your findings. Consult your institution's ethics board if you have questions.

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Speaker 1: In many of the college classes that rely a lot on writing, you may hear your instructors refer to something that's known as the research question, which can be kind of vague and frustrating if it's not explained very well. What is it? Why do I need it? And where do I get one? This video is going to tackle all of these questions, but first, let's break down the definition of research question. It's a clear, focused, concise, complex, and arguable question around which you center your research. Or it's just a thing that's meant to frustrate and confuse students throughout college writing. But hopefully after this video, research questions will be a little less confusing and frustrating. So why do I need a research question? Well, a research question helps you keep your research focused and on track. If you've ever had one of those experiences where you waited for the last minute to write your paper and you just all of a sudden started typing out your writing and a few hours later you read back over it and you realize, oh, this doesn't make sense, there's no clear focus, there's no clear line of thought, well, a research question will help you avoid that. But a research question is also very important because the answer to this question will actually turn into your thesis statement or the main argument of your paper. So it's important to make sure that your research question is strong. So how do I do that? Well, I'm going to walk you through a few steps that have helped me as I come up with research questions for my own writing. The first one is to find an issue that interests you. No matter what class you're in, try to find a way to connect that class to something that you're already interested in. Say you're in a psych class but you want to be a vet. Well, you could look at how pets affect our psychological health. Maybe you're a women's studies major and you're in a computer science class and you want to know why there aren't more women in technology-related fields. Or maybe you're an early childhood education major and you're in a nutrition class. Well, you could explore childhood obesity and how to avoid it. Step two, explore this issue. Just do a quick Google search. For the purpose of this video, I'm actually going to look at the issue of women and how few of them are actually in computer-related fields. This is an issue that I'm really interested in. So if I do a quick search on Google with these terms, I come across as my first hit a Wikipedia article, which I can't use to cite in my paper as a credible source, but it is a great place to start for ideas. And in this article, I found this really interesting quote that tells me that even though teenage girls are using computers at the same rate as teenage guys, they're still much less likely to consider a degree in a technology-related field. Well, I want to know why that is. So I start asking questions about it. I start asking, well, is it important for women to pursue computer-related jobs and why? Why are there so few girls with computer-related degrees? How can we encourage girls to be more involved in computer technology? And who else cares about this issue? Why is it important? Step four, start refining and focusing my question. Just because I have a research question doesn't necessarily mean it's a good question. So we're going to go through a couple of bad questions and talk about how to make them better. Let's start with this question. When did the first woman graduate with a degree in computer science? This isn't such a great question because there's really only one answer to this. There is no way to argue or defend or explore this question very well. A better question would be when, during their college career, do girls usually drop out of computer science programs, and how can we prevent this from happening? This is a question that I can actually explore and then take a stance or position on and then defend. Another bad question is, why do girls hate computers? Well, there's several reasons why this is a bad question. One of them is it's pretty general. It's blanketly stating that all girls hate computers, which isn't necessarily true. There's also really no way to explore or actually defend a feeling. You can't really tell me why girls hate computers. This isn't a question I can actually research. A better question is, why are girls dropping out of computer science programs at higher rates than guys? This is an issue I can dig into. I can come to an opinion on and then defend. So as you start coming up with and exploring research questions of your own, here are a few closing rules of thumbs to remember. One, avoid yes or no questions. Ask questions that might have multiple answers or opinions. This leads us to question two. If you don't ask yes or no questions, you'll start coming up with questions that require you to explain or defend your answer. They'll make you take a stance, which is what you're looking to do in college papers. And then finally, three, ask a question that can be tackled within your page limit. Don't pick a question that is so broad that you find yourself going on and on and on and overreaching your page limit. Find something that's manageable and that's small enough that you can actually answer in the page limit that you're given by your instructors. Now follow these rules, follow these guidelines, and hopefully coming up with research questions The next time you have to do this, it'll be a little simpler and a little less frustrating.