hypothesis examples high school

How to Write a Hypothesis [31 Tips + Examples]

Writing hypotheses can seem tricky, but it’s essential for a solid scientific inquiry.

Here is a quick summary of how to write a hypothesis:

Write a hypothesis by clearly defining your research question, identifying independent and dependent variables, formulating a measurable prediction, and ensuring it can be tested through experimentation. Include an “if…then” statement for clarity.

I’ve crafted dozens in my research, from basic biology experiments to business marketing strategies.

Let me walk you through how to write a solid hypothesis, step by step.

Writing a Hypothesis: The Basics

Notebook and scientific diagrams glow amidst dramatic lighting -- How to Write a Hypothesis

Table of Contents

A hypothesis is a statement predicting the relationship between variables based on observations and existing knowledge. To craft a good hypothesis:

Identify variables – Determine the independent and dependent variables involved.
Predict relationships – Predict the interaction between these variables.
Test the statement – Ensure the hypothesis is testable and falsifiable.

A solid hypothesis guides your research and sets the foundation for your experiment.

31 Tips for Writing a Hypothesis

There are at least 31 tips to write a good hypothesis.

Keep reading to learn every tip plus three examples to make sure that you can instantly apply it to your writing.

Tip 1: Start with a Clear Research Question

A clear research question ensures your hypothesis is targeted.

Identify the broad topic you’re curious about, then refine it to a specific question.
Use guiding questions like “What impact does variable X have on variable Y?”
How does fertilizer affect plant growth?
Does social media influence mental health in teens?
Can personalized ads increase customer engagement?

Tip 2: Do Background Research

Research helps you understand current knowledge and any existing gaps.

Review scholarly articles, reputable websites, and textbooks.
Focus on understanding the relationships between variables in existing research.
Academic journals like ScienceDirect or JSTOR.
Google Scholar.
Reputable news articles.

Tip 3: Identify Independent and Dependent Variables

The independent variable is what you change or control. The dependent variable is what you measure.

Clearly define these variables to make your hypothesis precise.
Think of different factors that could be influencing your dependent variable.
Type of fertilizer (independent) and plant growth (dependent).
Amount of screen time (independent) and anxiety levels (dependent).
Marketing strategies (independent) and customer engagement (dependent).

Tip 4: Make Your Hypothesis Testable

A hypothesis must be measurable and falsifiable.

Ensure your hypothesis can be supported or refuted through data collection.
Include numerical variables or qualitative changes to ensure measurability.
“Increasing screen time will increase anxiety levels in teenagers.”
“Using fertilizer X will yield higher crop productivity.”
“A/B testing marketing strategies will show higher engagement with personalized ads.”

Tip 5: Be Specific and Concise

Keep your hypothesis straightforward and to the point.

Avoid vague terms that could mislead or cause confusion.
Clearly outline what you’re measuring and how the variables interact.
“Replacing chemical fertilizers with organic ones will result in slower plant growth.”
“A social media break will decrease anxiety in high school students.”
“Ads targeting user preferences will boost click-through rates by 10%.”

Tip 6: Choose Simple Language

Use simple, understandable language to ensure clarity.

Avoid jargon and overly complex terms that could confuse readers.
Make the hypothesis comprehensible to non-experts in the field.
“Organic fertilizer will reduce plant growth.”
“High schoolers will feel less anxious after a social media detox.”
“Targeted ads will increase customer engagement.”

Tip 7: Formulate a Null Hypothesis

A null hypothesis assumes no relationship between variables.

Create a counterpoint to your main hypothesis, asserting that there is no effect.
This allows you to compare results directly and identify statistical significance.
“Fertilizer type will not affect plant growth.”
“Social media use will not influence anxiety.”
“Targeted ads will not affect customer engagement.”

Tip 8: State Alternative Hypotheses

Provide alternative hypotheses to explore other plausible relationships.

They offer a contingency plan if your primary hypothesis is not supported.
These should still align with your research question and measurable variables.
“Fertilizer X will only affect plant growth if used in specific soil types.”
“Social media might impact anxiety only in certain age groups.”
“Customer engagement might only improve with highly personalized ads.”

Tip 9: Use “If…Then” Statements

“If…then” statements simplify the cause-and-effect structure.

The “if” clause identifies the independent variable, while “then” identifies the dependent.
It makes your hypothesis easier to understand and directly testable.
“If plants receive organic fertilizer, then their growth rate will slow.”
“If teens stop using social media, then their anxiety will decrease.”
“If ads are personalized, then click-through rates will increase.”

Tip 10: Avoid Assumptions

Don’t assume the audience understands your variables or relationships.

Clearly define terms and relationships to avoid misinterpretation.
Provide background context where necessary for clarity.
Define “anxiety” as a feeling of worry or unease.
Specify “plant growth” as the height and health of plants.
Describe “personalized ads” as ads matching user preferences.

Tip 11: Review Existing Literature

Previous research offers insights into forming a hypothesis.

Conduct a thorough literature review to identify trends and gaps.
Use these studies to refine and build upon your hypothesis.
Studies showing a link between screen time and anxiety.
Research on organic versus chemical fertilizers.
Customer behavior analysis in different marketing channels.

Tip 12: Consider Multiple Variables

Hypotheses with multiple variables can offer deeper insights.

Explore combinations of independent and dependent variables to see their relationships.
Plan experiments accordingly to distinguish separate effects.
Studying fertilizer type and soil composition effects on plant growth.
Testing social media use frequency and content type on anxiety.
Analyzing marketing strategies combined with product preferences.

Tip 13: Review Ethical Considerations

Ethics are essential for trustworthy research.

Avoid hypotheses that could cause harm to participants or the environment.
Seek approval from relevant ethical boards or committees.
Avoiding experiments causing undue stress to teenagers.
Preventing chemical contamination when testing fertilizers.
Respecting privacy with personalized ads.

Tip 14: Test with Pilot Studies

Small-scale pilot studies test feasibility and refine hypotheses.

Use them to identify potential issues and adjust before full-scale research.
Ensure pilot tests align with ethical standards.
Testing different fertilizer types on small plant samples.
Trying brief social media breaks with a small group of teens.
Conducting A/B tests on ad personalization with a subset of customers.

Tip 15: Build Hypotheses on Existing Theories

Existing theories provide strong foundations.

Use established frameworks to develop or refine your hypothesis.
Testing theoretical predictions can yield meaningful data.
Applying agricultural theories on soil and crop management.
Using psychology theories on screen addiction and mental health.
Referencing marketing theories like consumer behavior analysis.

Tip 16: Address Real-World Problems

Solve real-world problems through practical hypotheses.

Make sure your research question has relevant, impactful applications.
Focus on everyday challenges where actionable insights can help.
Testing new eco-friendly farming methods.
Reducing anxiety by improving digital wellbeing.
Improving marketing ROI with personalized strategies.

Tip 17: Aim for Clear, Measurable Outcomes

The results should be easy to measure and interpret.

Quantify your dependent variable or use defined qualitative measures.
Avoid overly broad or ambiguous outcomes.
Measuring plant growth as a percentage change in height.
Quantifying anxiety levels through standard surveys.
Tracking click-through rates as a percentage of total views.

Tip 18: Stay Open to Unexpected Results

Not all hypotheses yield expected results.

Be open to learning new insights, even if they contradict your prediction.
Unexpected findings often reveal unique, significant knowledge.
Unexpected fertilizer types boosting growth differently than anticipated.
Screen time affecting anxiety differently across various age groups.
Targeted ads backfiring with specific customer segments.

Tip 19: Keep Hypotheses Relevant

Ensure your hypothesis aligns with the purpose of your research.

Avoid straying from the original question or focusing on tangential issues.
Stick to the research scope to ensure accurate and meaningful data.
Focus on a specific type of fertilizer for plant growth.
Restrict studies to relevant age groups for anxiety research.
Keep marketing hypotheses within the same target customer segment.

Tip 20: Collaborate with Peers

Collaboration strengthens hypothesis development.

Work with colleagues or mentors for valuable feedback.
Peer review helps identify flaws or assumptions in your hypothesis.
Reviewing hypothesis clarity with a lab partner.
Sharing research plans with a mentor to refine focus.
Engaging in academic peer-review groups.

Tip 21: Re-evaluate Hypotheses Periodically

Revising hypotheses ensures relevance.

Update based on new literature, data, or technological advances.
A dynamic approach keeps your research current.
Refining fertilizer studies with recent organic farming research.
Adjusting social media hypotheses for new platforms like TikTok.
Modifying marketing hypotheses based on changing customer preferences.

Tip 22: Develop Compelling Visuals

Illustrating hypotheses can help communicate relationships effectively.

Use diagrams or flowcharts to show how variables interact visually.
Infographics make it easier for others to grasp your research concept.
A flowchart showing fertilizer effects on different plant growth stages.
Diagrams illustrating social media use and its psychological impact.
Infographics depicting how various marketing strategies boost engagement.

Tip 23: Refine Your Data Collection Plan

A solid data collection plan is vital for a testable hypothesis.

Determine the best ways to measure your dependent variable.
Ensure your data collection tools are reliable and accurate.
Using a ruler and image analysis software to measure plant height.
Designing standardized surveys to assess anxiety levels consistently.
Setting up click-through tracking with analytics software.

Tip 24: Focus on Logical Progression

Ensure your hypothesis logically follows your research question.

The relationship between variables should naturally flow from your observations.
Avoid logical leaps that might confuse your reasoning.
Predicting plant growth after observing effects of different fertilizers.
Linking anxiety to social media use based on screen time studies.
Connecting ad personalization with customer behavior data.

Tip 25: Test Against Diverse Samples

Testing across diverse samples ensures broader applicability.

Avoid drawing conclusions from overly narrow sample groups.
Try to include different demographics or subgroups in your testing.
Testing fertilizer effects on multiple plant species.
Including different age groups in anxiety research.
Experimenting with personalized ads across varied customer segments.

Tip 26: Use Control Groups

Control groups provide a baseline for comparison.

Compare your test group with a control group under unchanged conditions.
This allows you to isolate the effect of your independent variable.
Comparing plant growth with organic versus no fertilizer.
Testing anxiety levels with and without social media breaks.
Comparing personalized ads with general marketing content.

Tip 27: Consider Practical Constraints

Work within realistic constraints for your resources and timeline.

Assess the feasibility of testing your hypothesis.
Modify the hypothesis if the required testing is unmanageable.
Reducing fertilizer types to a manageable number for testing.
Shortening social media detox periods to realistic durations.
Targeting only specific marketing strategies to optimize testing.

Tip 28: Recognize Bias Risks

Biases can skew hypothesis formation.

Acknowledge your assumptions and how they may affect your research.
Minimize biases by clearly defining and measuring variables.
Avoiding assumptions that organic fertilizer is inherently better.
Ensuring survey questions don’t lead to specific anxiety outcomes.
Testing marketing strategies objectively without favoring any method.

Tip 29: Prepare for Peer Review

Peer review ensures your hypothesis holds up to scrutiny.

Provide a clear rationale for why your hypothesis is sound.
Address potential criticisms to strengthen your research.
Showing your plant growth study builds on existing fertilizer research.
Demonstrating social media anxiety links through data and literature.
Supporting your marketing hypotheses with solid behavioral data.

Tip 30: Create a Research Proposal

A proposal outlines your hypothesis, methodology, and significance.

It ensures your hypothesis is clear and your methods are well-thought-out.
Proposals also help secure funding or institutional approval.
A proposal for fertilizer studies linking plant growth and soil health.
Research plans connecting social media habits to anxiety measures.
Marketing proposals tying customer behavior to personalized advertising.

Tip 31: Document Your Findings

Recording findings helps validate or challenge your hypothesis.

Document the methodology, data, and conclusions clearly.
This allows others to verify, replicate, or expand on your work.
Recording fertilizer effects on plant height in different soil types.
Survey results linking social media use with anxiety levels.
Click-through data proving personalized ads’ impact on engagement.

Check out this really good video about how to write a hypothesis:

Hypothesis Examples for Different Situations

Let’s look at some examples of how to write a hypothesis in different circumstances.

Marketing Analysis : “If personalized ads are shown to our target demographic, then click-through rates will increase by at least 10%.”
Process Improvement : “If automated workflows replace manual data entry, then task completion times will decrease by 20%.”
Product Development : “If adding a chatbot feature to our app increases customer support efficiency, then user satisfaction will improve by 15%.”
Biology Experiment : “If students grow plants with different fertilizers, then the organic fertilizer will result in slower growth compared to the chemical fertilizer.”
Psychology Research : “If high school students take a break from social media, then their levels of anxiety will decrease.”
Environmental Study : “If a controlled forest area is exposed to a certain pollutant, then the local plant species will show signs of damage within two weeks.”

Professional Contacts

Medical Research : “If a novel treatment method is applied to patients with chronic illness, then their recovery rate will increase significantly compared to standard treatment.”
Technology Research : “If machine learning algorithms analyze big data sets, then the accuracy of predictive models will surpass traditional data analysis.”
Engineering Project : “If new composite materials replace standard components in bridge construction, then the resulting structure will be more durable.”

Super Personal

Gardening Experiment : “If different types of compost are used in home gardens, then plants receiving homemade compost will yield the most produce.”
Fitness Routine : “If consistent strength training is combined with a high-protein diet, then muscle mass will increase more than with diet alone.”
Cooking Techniques : “If searing is added before baking, then the resulting roast will retain more moisture.”

Final Thoughts: How to Write a Hypothesis

Crafting hypotheses is both a science and an art. It’s about channeling curiosity into testable questions that propel meaningful discovery.

Each well-thought-out hypothesis is a stepping stone that could lead to the breakthrough you’ve been seeking.

Stay curious and let your research journey unfold.

Hypothesis Examples

A hypothesis is a prediction of the outcome of a test. It forms the basis for designing an experiment in the scientific method . A good hypothesis is testable, meaning it makes a prediction you can check with observation or experimentation. Here are different hypothesis examples.

Null Hypothesis Examples

The null hypothesis (H 0 ) is also known as the zero-difference or no-difference hypothesis. It predicts that changing one variable ( independent variable ) will have no effect on the variable being measured ( dependent variable ). Here are null hypothesis examples:

Plant growth is unaffected by temperature.
If you increase temperature, then solubility of salt will increase.
Incidence of skin cancer is unrelated to ultraviolet light exposure.
All brands of light bulb last equally long.
Cats have no preference for the color of cat food.
All daisies have the same number of petals.

Sometimes the null hypothesis shows there is a suspected correlation between two variables. For example, if you think plant growth is affected by temperature, you state the null hypothesis: “Plant growth is not affected by temperature.” Why do you do this, rather than say “If you change temperature, plant growth will be affected”? The answer is because it’s easier applying a statistical test that shows, with a high level of confidence, a null hypothesis is correct or incorrect.

Research Hypothesis Examples

A research hypothesis (H 1 ) is a type of hypothesis used to design an experiment. This type of hypothesis is often written as an if-then statement because it’s easy identifying the independent and dependent variables and seeing how one affects the other. If-then statements explore cause and effect. In other cases, the hypothesis shows a correlation between two variables. Here are some research hypothesis examples:

If you leave the lights on, then it takes longer for people to fall asleep.
If you refrigerate apples, they last longer before going bad.
If you keep the curtains closed, then you need less electricity to heat or cool the house (the electric bill is lower).
If you leave a bucket of water uncovered, then it evaporates more quickly.
Goldfish lose their color if they are not exposed to light.
Workers who take vacations are more productive than those who never take time off.

Is It Okay to Disprove a Hypothesis?

Yes! You may even choose to write your hypothesis in such a way that it can be disproved because it’s easier to prove a statement is wrong than to prove it is right. In other cases, if your prediction is incorrect, that doesn’t mean the science is bad. Revising a hypothesis is common. It demonstrates you learned something you did not know before you conducted the experiment.

Test yourself with a Scientific Method Quiz .

Mellenbergh, G.J. (2008). Chapter 8: Research designs: Testing of research hypotheses. In H.J. Adèr & G.J. Mellenbergh (eds.), Advising on Research Methods: A Consultant’s Companion . Huizen, The Netherlands: Johannes van Kessel Publishing.
Popper, Karl R. (1959). The Logic of Scientific Discovery . Hutchinson & Co. ISBN 3-1614-8410-X.
Schick, Theodore; Vaughn, Lewis (2002). How to think about weird things: critical thinking for a New Age . Boston: McGraw-Hill Higher Education. ISBN 0-7674-2048-9.
Tobi, Hilde; Kampen, Jarl K. (2018). “Research design: the methodology for interdisciplinary research framework”. Quality & Quantity . 52 (3): 1209–1225. doi: 10.1007/s11135-017-0513-8

Choose Your Test

Sat / act prep online guides and tips, what is a hypothesis and how do i write one.

General Education

Think about something strange and unexplainable in your life. Maybe you get a headache right before it rains, or maybe you think your favorite sports team wins when you wear a certain color. If you wanted to see whether these are just coincidences or scientific fact, you would form a hypothesis, then create an experiment to see whether that hypothesis is true or not.

But what is a hypothesis, anyway? If you’re not sure about what a hypothesis is--or how to test for one!--you’re in the right place. This article will teach you everything you need to know about hypotheses, including:

Defining the term “hypothesis”
Providing hypothesis examples
Giving you tips for how to write your own hypothesis

So let’s get started!

What Is a Hypothesis?

Merriam Webster defines a hypothesis as “an assumption or concession made for the sake of argument.” In other words, a hypothesis is an educated guess . Scientists make a reasonable assumption--or a hypothesis--then design an experiment to test whether it’s true or not. Keep in mind that in science, a hypothesis should be testable. You have to be able to design an experiment that tests your hypothesis in order for it to be valid.

As you could assume from that statement, it’s easy to make a bad hypothesis. But when you’re holding an experiment, it’s even more important that your guesses be good...after all, you’re spending time (and maybe money!) to figure out more about your observation. That’s why we refer to a hypothesis as an educated guess--good hypotheses are based on existing data and research to make them as sound as possible.

Hypotheses are one part of what’s called the scientific method . Every (good) experiment or study is based in the scientific method. The scientific method gives order and structure to experiments and ensures that interference from scientists or outside influences does not skew the results. It’s important that you understand the concepts of the scientific method before holding your own experiment. Though it may vary among scientists, the scientific method is generally made up of six steps (in order):

Observation
Asking questions
Forming a hypothesis
Analyze the data
Communicate your results

You’ll notice that the hypothesis comes pretty early on when conducting an experiment. That’s because experiments work best when they’re trying to answer one specific question. And you can’t conduct an experiment until you know what you’re trying to prove!

Independent and Dependent Variables

After doing your research, you’re ready for another important step in forming your hypothesis: identifying variables. Variables are basically any factor that could influence the outcome of your experiment . Variables have to be measurable and related to the topic being studied.

There are two types of variables: independent variables and dependent variables. I ndependent variables remain constant . For example, age is an independent variable; it will stay the same, and researchers can look at different ages to see if it has an effect on the dependent variable.

Speaking of dependent variables... dependent variables are subject to the influence of the independent variable , meaning that they are not constant. Let’s say you want to test whether a person’s age affects how much sleep they need. In that case, the independent variable is age (like we mentioned above), and the dependent variable is how much sleep a person gets.

Variables will be crucial in writing your hypothesis. You need to be able to identify which variable is which, as both the independent and dependent variables will be written into your hypothesis. For instance, in a study about exercise, the independent variable might be the speed at which the respondents walk for thirty minutes, and the dependent variable would be their heart rate. In your study and in your hypothesis, you’re trying to understand the relationship between the two variables.

Elements of a Good Hypothesis

The best hypotheses start by asking the right questions . For instance, if you’ve observed that the grass is greener when it rains twice a week, you could ask what kind of grass it is, what elevation it’s at, and if the grass across the street responds to rain in the same way. Any of these questions could become the backbone of experiments to test why the grass gets greener when it rains fairly frequently.

As you’re asking more questions about your first observation, make sure you’re also making more observations . If it doesn’t rain for two weeks and the grass still looks green, that’s an important observation that could influence your hypothesis. You'll continue observing all throughout your experiment, but until the hypothesis is finalized, every observation should be noted.

Finally, you should consult secondary research before writing your hypothesis . Secondary research is comprised of results found and published by other people. You can usually find this information online or at your library. Additionally, m ake sure the research you find is credible and related to your topic. If you’re studying the correlation between rain and grass growth, it would help you to research rain patterns over the past twenty years for your county, published by a local agricultural association. You should also research the types of grass common in your area, the type of grass in your lawn, and whether anyone else has conducted experiments about your hypothesis. Also be sure you’re checking the quality of your research . Research done by a middle school student about what minerals can be found in rainwater would be less useful than an article published by a local university.

Writing Your Hypothesis

Once you’ve considered all of the factors above, you’re ready to start writing your hypothesis. Hypotheses usually take a certain form when they’re written out in a research report.

When you boil down your hypothesis statement, you are writing down your best guess and not the question at hand . This means that your statement should be written as if it is fact already, even though you are simply testing it.

The reason for this is that, after you have completed your study, you'll either accept or reject your if-then or your null hypothesis. All hypothesis testing examples should be measurable and able to be confirmed or denied. You cannot confirm a question, only a statement!

In fact, you come up with hypothesis examples all the time! For instance, when you guess on the outcome of a basketball game, you don’t say, “Will the Miami Heat beat the Boston Celtics?” but instead, “I think the Miami Heat will beat the Boston Celtics.” You state it as if it is already true, even if it turns out you’re wrong. You do the same thing when writing your hypothesis.

Additionally, keep in mind that hypotheses can range from very specific to very broad. These hypotheses can be specific, but if your hypothesis testing examples involve a broad range of causes and effects, your hypothesis can also be broad.

The Two Types of Hypotheses

Now that you understand what goes into a hypothesis, it’s time to look more closely at the two most common types of hypothesis: the if-then hypothesis and the null hypothesis.

#1: If-Then Hypotheses

First of all, if-then hypotheses typically follow this formula:

If ____ happens, then ____ will happen.

The goal of this type of hypothesis is to test the causal relationship between the independent and dependent variable. It’s fairly simple, and each hypothesis can vary in how detailed it can be. We create if-then hypotheses all the time with our daily predictions. Here are some examples of hypotheses that use an if-then structure from daily life:

If I get enough sleep, I’ll be able to get more work done tomorrow.
If the bus is on time, I can make it to my friend’s birthday party.
If I study every night this week, I’ll get a better grade on my exam.

In each of these situations, you’re making a guess on how an independent variable (sleep, time, or studying) will affect a dependent variable (the amount of work you can do, making it to a party on time, or getting better grades).

You may still be asking, “What is an example of a hypothesis used in scientific research?” Take one of the hypothesis examples from a real-world study on whether using technology before bed affects children’s sleep patterns. The hypothesis read s:

“We hypothesized that increased hours of tablet- and phone-based screen time at bedtime would be inversely correlated with sleep quality and child attention.”

It might not look like it, but this is an if-then statement. The researchers basically said, “If children have more screen usage at bedtime, then their quality of sleep and attention will be worse.” The sleep quality and attention are the dependent variables and the screen usage is the independent variable. (Usually, the independent variable comes after the “if” and the dependent variable comes after the “then,” as it is the independent variable that affects the dependent variable.) This is an excellent example of how flexible hypothesis statements can be, as long as the general idea of “if-then” and the independent and dependent variables are present.

#2: Null Hypotheses

Your if-then hypothesis is not the only one needed to complete a successful experiment, however. You also need a null hypothesis to test it against. In its most basic form, the null hypothesis is the opposite of your if-then hypothesis . When you write your null hypothesis, you are writing a hypothesis that suggests that your guess is not true, and that the independent and dependent variables have no relationship .

One null hypothesis for the cell phone and sleep study from the last section might say:

“If children have more screen usage at bedtime, their quality of sleep and attention will not be worse.”

In this case, this is a null hypothesis because it’s asking the opposite of the original thesis!

Conversely, if your if-then hypothesis suggests that your two variables have no relationship, then your null hypothesis would suggest that there is one. So, pretend that there is a study that is asking the question, “Does the amount of followers on Instagram influence how long people spend on the app?” The independent variable is the amount of followers, and the dependent variable is the time spent. But if you, as the researcher, don’t think there is a relationship between the number of followers and time spent, you might write an if-then hypothesis that reads:

“If people have many followers on Instagram, they will not spend more time on the app than people who have less.”

In this case, the if-then suggests there isn’t a relationship between the variables. In that case, one of the null hypothesis examples might say:

“If people have many followers on Instagram, they will spend more time on the app than people who have less.”

You then test both the if-then and the null hypothesis to gauge if there is a relationship between the variables, and if so, how much of a relationship.

4 Tips to Write the Best Hypothesis

If you’re going to take the time to hold an experiment, whether in school or by yourself, you’re also going to want to take the time to make sure your hypothesis is a good one. The best hypotheses have four major elements in common: plausibility, defined concepts, observability, and general explanation.

#1: Plausibility

At first glance, this quality of a hypothesis might seem obvious. When your hypothesis is plausible, that means it’s possible given what we know about science and general common sense. However, improbable hypotheses are more common than you might think.

Imagine you’re studying weight gain and television watching habits. If you hypothesize that people who watch more than twenty hours of television a week will gain two hundred pounds or more over the course of a year, this might be improbable (though it’s potentially possible). Consequently, c ommon sense can tell us the results of the study before the study even begins.

Improbable hypotheses generally go against science, as well. Take this hypothesis example:

“If a person smokes one cigarette a day, then they will have lungs just as healthy as the average person’s.”

This hypothesis is obviously untrue, as studies have shown again and again that cigarettes negatively affect lung health. You must be careful that your hypotheses do not reflect your own personal opinion more than they do scientifically-supported findings. This plausibility points to the necessity of research before the hypothesis is written to make sure that your hypothesis has not already been disproven.

#2: Defined Concepts

The more advanced you are in your studies, the more likely that the terms you’re using in your hypothesis are specific to a limited set of knowledge. One of the hypothesis testing examples might include the readability of printed text in newspapers, where you might use words like “kerning” and “x-height.” Unless your readers have a background in graphic design, it’s likely that they won’t know what you mean by these terms. Thus, it’s important to either write what they mean in the hypothesis itself or in the report before the hypothesis.

Here’s what we mean. Which of the following sentences makes more sense to the common person?

If the kerning is greater than average, more words will be read per minute.

If the space between letters is greater than average, more words will be read per minute.

For people reading your report that are not experts in typography, simply adding a few more words will be helpful in clarifying exactly what the experiment is all about. It’s always a good idea to make your research and findings as accessible as possible.

Good hypotheses ensure that you can observe the results.

#3: Observability

In order to measure the truth or falsity of your hypothesis, you must be able to see your variables and the way they interact. For instance, if your hypothesis is that the flight patterns of satellites affect the strength of certain television signals, yet you don’t have a telescope to view the satellites or a television to monitor the signal strength, you cannot properly observe your hypothesis and thus cannot continue your study.

Some variables may seem easy to observe, but if you do not have a system of measurement in place, you cannot observe your hypothesis properly. Here’s an example: if you’re experimenting on the effect of healthy food on overall happiness, but you don’t have a way to monitor and measure what “overall happiness” means, your results will not reflect the truth. Monitoring how often someone smiles for a whole day is not reasonably observable, but having the participants state how happy they feel on a scale of one to ten is more observable.

In writing your hypothesis, always keep in mind how you'll execute the experiment.

#4: Generalizability

Perhaps you’d like to study what color your best friend wears the most often by observing and documenting the colors she wears each day of the week. This might be fun information for her and you to know, but beyond you two, there aren’t many people who could benefit from this experiment. When you start an experiment, you should note how generalizable your findings may be if they are confirmed. Generalizability is basically how common a particular phenomenon is to other people’s everyday life.

Let’s say you’re asking a question about the health benefits of eating an apple for one day only, you need to realize that the experiment may be too specific to be helpful. It does not help to explain a phenomenon that many people experience. If you find yourself with too specific of a hypothesis, go back to asking the big question: what is it that you want to know, and what do you think will happen between your two variables?

Hypothesis Testing Examples

We know it can be hard to write a good hypothesis unless you’ve seen some good hypothesis examples. We’ve included four hypothesis examples based on some made-up experiments. Use these as templates or launch pads for coming up with your own hypotheses.

Experiment #1: Students Studying Outside (Writing a Hypothesis)

You are a student at PrepScholar University. When you walk around campus, you notice that, when the temperature is above 60 degrees, more students study in the quad. You want to know when your fellow students are more likely to study outside. With this information, how do you make the best hypothesis possible?

You must remember to make additional observations and do secondary research before writing your hypothesis. In doing so, you notice that no one studies outside when it’s 75 degrees and raining, so this should be included in your experiment. Also, studies done on the topic beforehand suggested that students are more likely to study in temperatures less than 85 degrees. With this in mind, you feel confident that you can identify your variables and write your hypotheses:

If-then: “If the temperature in Fahrenheit is less than 60 degrees, significantly fewer students will study outside.”

Null: “If the temperature in Fahrenheit is less than 60 degrees, the same number of students will study outside as when it is more than 60 degrees.”

These hypotheses are plausible, as the temperatures are reasonably within the bounds of what is possible. The number of people in the quad is also easily observable. It is also not a phenomenon specific to only one person or at one time, but instead can explain a phenomenon for a broader group of people.

To complete this experiment, you pick the month of October to observe the quad. Every day (except on the days where it’s raining)from 3 to 4 PM, when most classes have released for the day, you observe how many people are on the quad. You measure how many people come and how many leave. You also write down the temperature on the hour.

After writing down all of your observations and putting them on a graph, you find that the most students study on the quad when it is 70 degrees outside, and that the number of students drops a lot once the temperature reaches 60 degrees or below. In this case, your research report would state that you accept or “failed to reject” your first hypothesis with your findings.

Experiment #2: The Cupcake Store (Forming a Simple Experiment)

Let’s say that you work at a bakery. You specialize in cupcakes, and you make only two colors of frosting: yellow and purple. You want to know what kind of customers are more likely to buy what kind of cupcake, so you set up an experiment. Your independent variable is the customer’s gender, and the dependent variable is the color of the frosting. What is an example of a hypothesis that might answer the question of this study?

Here’s what your hypotheses might look like:

If-then: “If customers’ gender is female, then they will buy more yellow cupcakes than purple cupcakes.”

Null: “If customers’ gender is female, then they will be just as likely to buy purple cupcakes as yellow cupcakes.”

This is a pretty simple experiment! It passes the test of plausibility (there could easily be a difference), defined concepts (there’s nothing complicated about cupcakes!), observability (both color and gender can be easily observed), and general explanation ( this would potentially help you make better business decisions ).

Experiment #3: Backyard Bird Feeders (Integrating Multiple Variables and Rejecting the If-Then Hypothesis)

While watching your backyard bird feeder, you realized that different birds come on the days when you change the types of seeds. You decide that you want to see more cardinals in your backyard, so you decide to see what type of food they like the best and set up an experiment.

However, one morning, you notice that, while some cardinals are present, blue jays are eating out of your backyard feeder filled with millet. You decide that, of all of the other birds, you would like to see the blue jays the least. This means you'll have more than one variable in your hypothesis. Your new hypotheses might look like this:

If-then: “If sunflower seeds are placed in the bird feeders, then more cardinals will come than blue jays. If millet is placed in the bird feeders, then more blue jays will come than cardinals.”

Null: “If either sunflower seeds or millet are placed in the bird, equal numbers of cardinals and blue jays will come.”

Through simple observation, you actually find that cardinals come as often as blue jays when sunflower seeds or millet is in the bird feeder. In this case, you would reject your “if-then” hypothesis and “fail to reject” your null hypothesis . You cannot accept your first hypothesis, because it’s clearly not true. Instead you found that there was actually no relation between your different variables. Consequently, you would need to run more experiments with different variables to see if the new variables impact the results.

Experiment #4: In-Class Survey (Including an Alternative Hypothesis)

You’re about to give a speech in one of your classes about the importance of paying attention. You want to take this opportunity to test a hypothesis you’ve had for a while:

If-then: If students sit in the first two rows of the classroom, then they will listen better than students who do not.

Null: If students sit in the first two rows of the classroom, then they will not listen better or worse than students who do not.

You give your speech and then ask your teacher if you can hand out a short survey to the class. On the survey, you’ve included questions about some of the topics you talked about. When you get back the results, you’re surprised to see that not only do the students in the first two rows not pay better attention, but they also scored worse than students in other parts of the classroom! Here, both your if-then and your null hypotheses are not representative of your findings. What do you do?

This is when you reject both your if-then and null hypotheses and instead create an alternative hypothesis . This type of hypothesis is used in the rare circumstance that neither of your hypotheses is able to capture your findings . Now you can use what you’ve learned to draft new hypotheses and test again!

Key Takeaways: Hypothesis Writing

The more comfortable you become with writing hypotheses, the better they will become. The structure of hypotheses is flexible and may need to be changed depending on what topic you are studying. The most important thing to remember is the purpose of your hypothesis and the difference between the if-then and the null . From there, in forming your hypothesis, you should constantly be asking questions, making observations, doing secondary research, and considering your variables. After you have written your hypothesis, be sure to edit it so that it is plausible, clearly defined, observable, and helpful in explaining a general phenomenon.

Writing a hypothesis is something that everyone, from elementary school children competing in a science fair to professional scientists in a lab, needs to know how to do. Hypotheses are vital in experiments and in properly executing the scientific method . When done correctly, hypotheses will set up your studies for success and help you to understand the world a little better, one experiment at a time.

What’s Next?

If you’re studying for the science portion of the ACT, there’s definitely a lot you need to know. We’ve got the tools to help, though! Start by checking out our ultimate study guide for the ACT Science subject test. Once you read through that, be sure to download our recommended ACT Science practice tests , since they’re one of the most foolproof ways to improve your score. (And don’t forget to check out our expert guide book , too.)

If you love science and want to major in a scientific field, you should start preparing in high school . Here are the science classes you should take to set yourself up for success.

If you’re trying to think of science experiments you can do for class (or for a science fair!), here’s a list of 37 awesome science experiments you can do at home

Ashley Sufflé Robinson has a Ph.D. in 19th Century English Literature. As a content writer for PrepScholar, Ashley is passionate about giving college-bound students the in-depth information they need to get into the school of their dreams.

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100 Hypothesis Examples Across Various Academic Fields

A hypothesis is a statement or proposition that is made for the purpose of testing through empirical research. It represents an educated guess or prediction that can be tested through observation and experimentation. A hypothesis is often formulated using a logical construct of "if-then" statements, allowing researchers to set up experiments to determine its validity. It serves as the foundation of a scientific inquiry, providing a clear focus and direction for the study. In essence, a hypothesis is a provisional answer to a research question , which is then subjected to rigorous testing to determine its accuracy.

In this blog post, we'll explore 100 different hypothesis examples, showing you how these simple statements set the stage for discovery in various academic fields. From the mysteries of chemical reactions to the complexities of human behavior, hypotheses are used to kickstart research in numerous disciplines. Whether you're new to the world of academia or just curious about how ideas are tested, these examples will offer insight into the fundamental role hypotheses play in learning and exploration.

If a plant is given more sunlight, then it will grow faster.
If an animal's environment is altered, then its behavior will change.
If a cell is exposed to a toxin, then its function will be impaired.
If a species is introduced to a new ecosystem, then it may become invasive.
If an antibiotic is applied to a bacterial culture, then growth will be inhibited.
If a gene is mutated, then the corresponding protein may become nonfunctional.
If a pond's water temperature rises, then the algae population will increase.
If a bird species' habitat is destroyed, then its population will decrease.
If a mammal is given a high-fat diet, then its cholesterol levels will rise.
If human stem cells are treated with specific factors, then they will differentiate into targeted cell types.
If the concentration of a reactant is increased, then the rate of reaction will increase.
If a metal is placed in a solution of a salt of a less reactive metal, then a displacement reaction will occur.
If a solution's pH is lowered, then the concentration of hydrogen ions will increase.
If a gas is cooled at constant pressure, then its volume will decrease according to Charles's law.
If an endothermic reaction is heated, then the equilibrium position will shift to favor the products.
If an enzyme is added to a reaction, then the reaction rate will increase due to the lower activation energy.
If the pressure on a gas is increased at constant temperature, then the volume will decrease according to Boyle's law.
If a non-polar molecule is added to water, then it will not dissolve due to water's polarity.
If a piece of litmus paper is placed in a basic solution, then the color of the paper will turn blue.
If an electric current is passed through a salt solution, then the solution will undergo electrolysis and break down into its components.

Computer science

If a new algorithm is applied to a sorting problem, then the computational complexity will decrease.
If multi-factor authentication is implemented, then the security of a system will increase.
If a machine learning model is trained with more diverse data, then its predictive accuracy will improve.
If the bandwidth of a network is increased, then the data transmission rate will be faster.
If a user interface is redesigned following usability guidelines, then user satisfaction and efficiency will increase.
If a specific optimization technique is applied to a database query, then the retrieval time will be reduced.
If a new cooling system is used in a data center, then energy consumption will decrease.
If parallel processing is implemented in a computational task, then the processing time will be reduced.
If a software development team adopts Agile methodologies, then the project delivery time will be shortened.
If a more advanced error correction code is used in data transmission, then the error rate will decrease.
If the interest rate is lowered, then consumer spending will increase.
If the minimum wage is raised, then unemployment may increase among low-skilled workers.
If government spending is increased, then the Gross Domestic Product (GDP) may grow.
If taxes on luxury goods are raised, then consumption of those goods may decrease.
If a country's currency is devalued, then its exports will become more competitive.
If inflation is high, then the central bank may increase interest rates to control it.
If consumer confidence is high, then spending in the economy will likely increase.
If barriers to entry in a market are reduced, then competition will likely increase.
If a firm engages in monopolistic practices, then consumer welfare may decrease.
If unemployment benefits are extended, then the unemployment rate may be temporarily affected.
If class sizes are reduced, then individual student performance may improve.
If teachers receive ongoing professional development, then teaching quality will increase.
If schools implement a comprehensive literacy program, then reading levels among students will rise.
If parents are actively involved in their children's education, then students' academic achievement may increase.
If schools provide more access to extracurricular activities, then student engagement and retention may improve.
If educational technology is integrated into the classroom, then learning outcomes may enhance.
If a school adopts a zero-tolerance policy on bullying, then the incidence of bullying will decrease.
If schools provide nutritious meals, then student concentration and performance may improve.
If a curriculum is designed to include diverse cultural perspectives, then student understanding of different cultures will increase.
If schools implement individualized learning plans, then students with special needs will achieve better educational outcomes.

Environmental science

If deforestation rates continue to rise, then biodiversity in the area will decrease.
If carbon dioxide emissions are reduced, then the rate of global warming may decrease.
If a water body is polluted with nutrients, then algal blooms may occur, leading to eutrophication.
If renewable energy sources are used more extensively, then dependency on fossil fuels will decrease.
If urban areas implement green spaces, then the urban heat island effect may be reduced.
If protective measures are not implemented, then endangered species may become extinct.
If waste recycling practices are increased, then landfill usage and waste pollution may decrease.
If air quality regulations are enforced, then respiratory health issues in the population may decrease.
If soil erosion control measures are not implemented, then agricultural land fertility may decrease.
If ocean temperatures continue to rise, then coral reefs may experience more frequent bleaching events.
If a new chemotherapy drug is administered to cancer patients, then tumor size will decrease more effectively.
If a specific exercise regimen is followed by osteoarthritis patients, then joint mobility will improve.
If a population is exposed to higher levels of air pollution, then respiratory diseases such as asthma will increase.
If a novel surgical technique is utilized in cardiac surgery, then patient recovery times will be shortened.
If a targeted screening program is implemented for a specific genetic disorder, then early detection and intervention rates will increase.
If a community's water supply is fortified with fluoride, then dental cavity rates in children will decrease.
If an improved vaccination schedule is followed in a pediatric population, then the incidence of preventable childhood diseases will decline.
If nutritional supplements are provided to malnourished individuals, then general health and immune function will improve.
If stricter infection control protocols are implemented in hospitals, then the rate of hospital-acquired infections will decrease.
If organ transplant recipients are given a new immunosuppressant drug, then organ rejection rates will decrease.
If a person is exposed to violent media, then their aggression levels may increase.
If a child is given positive reinforcement, then desired behaviors will be more likely to be repeated.
If an individual suffers from anxiety, then their performance on tasks under pressure may decrease.
If a patient is treated with cognitive-behavioral therapy, then symptoms of depression may reduce.
If a person lacks sleep, then their cognitive functions and decision-making abilities will decline.
If an individual's self-esteem is increased, then their overall life satisfaction may improve.
If a person is exposed to a traumatic event, then they may develop symptoms of PTSD.
If social support is provided to an individual, then their ability to cope with stress will improve.
If a group works collaboratively, then they may exhibit improved problem-solving abilities.
If an individual is given autonomy in their work, then their job satisfaction and motivation will increase.
If the velocity of an object is increased, then the kinetic energy will also increase.
If the temperature of a gas is increased at constant pressure, then the volume will increase.
If the mass of an object is doubled, then the gravitational force it exerts will also double.
If the frequency of a wave is increased, then the energy it carries will increase.
If a magnet's distance from a metal object is decreased, then the magnetic force will increase.
If the angle of incidence equals the angle of reflection, then the law of reflection holds true.
If the resistance in an electrical circuit is increased, then the current will decrease.
If the force applied to a spring is doubled, then the extension of the spring will also double.
If a mirror is concave, then it will focus parallel rays to a point.
If a body is in uniform circular motion, then the net force toward the center is providing the centripetal acceleration.
If educational opportunities are equally distributed in a society, then social mobility will increase.
If community policing strategies are implemented, then trust between law enforcement and the community may improve.
If social media usage increases among teenagers, then face-to-face social interaction may decrease.
If gender wage gap policies are enforced, then disparities in earnings between men and women will decrease.
If a society emphasizes individualistic values, then community engagement and collective responsibility may decline.
If affordable housing initiatives are implemented in urban areas, then homelessness rates may decrease.
If a minority group is represented in media, then stereotypes and prejudices toward that group may decrease.
If a culture promotes work-life balance, then overall life satisfaction among its citizens may increase.
If increased funding is provided to community centers in underserved neighborhoods, then social cohesion and community engagement may improve.
If legislation is passed to protect the rights of LGBTQ+ individuals, then discrimination and stigma may decrease in society.

In the exploration of various academic disciplines, hypotheses play a crucial role as foundational statements that guide research and inquiry. From understanding complex biological processes to navigating the nuances of human behavior in sociology, hypotheses serve as testable predictions that shape the direction of scientific investigation. The examples provided across the fields of medicine, computer science, sociology, and education illustrate the diverse applications and importance of hypotheses in shaping our understanding of the world. Whether improving medical treatments, enhancing technological systems, fostering social equality, or elevating educational practices, hypotheses remain central to scientific progress and societal advancement. By formulating clear and measurable hypotheses, researchers can continue to unravel complex phenomena, contribute to their fields, and ultimately enrich human knowledge and well-being.

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How to Write a Great Hypothesis

Hypothesis Definition, Format, Examples, and Tips

Kendra Cherry, MS, is a psychosocial rehabilitation specialist, psychology educator, and author of the "Everything Psychology Book."

Amy Morin, LCSW, is a psychotherapist and international bestselling author. Her books, including "13 Things Mentally Strong People Don't Do," have been translated into more than 40 languages. Her TEDx talk, "The Secret of Becoming Mentally Strong," is one of the most viewed talks of all time.

Verywell / Alex Dos Diaz

The Scientific Method

Hypothesis Format

Falsifiability of a hypothesis.

Operationalization

Hypothesis Types

Hypotheses examples.

Collecting Data

A hypothesis is a tentative statement about the relationship between two or more variables. It is a specific, testable prediction about what you expect to happen in a study. It is a preliminary answer to your question that helps guide the research process.

Consider a study designed to examine the relationship between sleep deprivation and test performance. The hypothesis might be: "This study is designed to assess the hypothesis that sleep-deprived people will perform worse on a test than individuals who are not sleep-deprived."

At a Glance

A hypothesis is crucial to scientific research because it offers a clear direction for what the researchers are looking to find. This allows them to design experiments to test their predictions and add to our scientific knowledge about the world. This article explores how a hypothesis is used in psychology research, how to write a good hypothesis, and the different types of hypotheses you might use.

The Hypothesis in the Scientific Method

In the scientific method , whether it involves research in psychology, biology, or some other area, a hypothesis represents what the researchers think will happen in an experiment. The scientific method involves the following steps:

Forming a question
Performing background research
Creating a hypothesis
Designing an experiment
Collecting data
Analyzing the results
Drawing conclusions
Communicating the results

The hypothesis is a prediction, but it involves more than a guess. Most of the time, the hypothesis begins with a question which is then explored through background research. At this point, researchers then begin to develop a testable hypothesis.

Unless you are creating an exploratory study, your hypothesis should always explain what you expect to happen.

In a study exploring the effects of a particular drug, the hypothesis might be that researchers expect the drug to have some type of effect on the symptoms of a specific illness. In psychology, the hypothesis might focus on how a certain aspect of the environment might influence a particular behavior.

Remember, a hypothesis does not have to be correct. While the hypothesis predicts what the researchers expect to see, the goal of the research is to determine whether this guess is right or wrong. When conducting an experiment, researchers might explore numerous factors to determine which ones might contribute to the ultimate outcome.

In many cases, researchers may find that the results of an experiment do not support the original hypothesis. When writing up these results, the researchers might suggest other options that should be explored in future studies.

In many cases, researchers might draw a hypothesis from a specific theory or build on previous research. For example, prior research has shown that stress can impact the immune system. So a researcher might hypothesize: "People with high-stress levels will be more likely to contract a common cold after being exposed to the virus than people who have low-stress levels."

In other instances, researchers might look at commonly held beliefs or folk wisdom. "Birds of a feather flock together" is one example of folk adage that a psychologist might try to investigate. The researcher might pose a specific hypothesis that "People tend to select romantic partners who are similar to them in interests and educational level."

Elements of a Good Hypothesis

So how do you write a good hypothesis? When trying to come up with a hypothesis for your research or experiments, ask yourself the following questions:

Is your hypothesis based on your research on a topic?
Can your hypothesis be tested?
Does your hypothesis include independent and dependent variables?

Before you come up with a specific hypothesis, spend some time doing background research. Once you have completed a literature review, start thinking about potential questions you still have. Pay attention to the discussion section in the journal articles you read . Many authors will suggest questions that still need to be explored.

How to Formulate a Good Hypothesis

To form a hypothesis, you should take these steps:

Collect as many observations about a topic or problem as you can.
Evaluate these observations and look for possible causes of the problem.
Create a list of possible explanations that you might want to explore.
After you have developed some possible hypotheses, think of ways that you could confirm or disprove each hypothesis through experimentation. This is known as falsifiability.

In the scientific method , falsifiability is an important part of any valid hypothesis. In order to test a claim scientifically, it must be possible that the claim could be proven false.

Students sometimes confuse the idea of falsifiability with the idea that it means that something is false, which is not the case. What falsifiability means is that if something was false, then it is possible to demonstrate that it is false.

One of the hallmarks of pseudoscience is that it makes claims that cannot be refuted or proven false.

The Importance of Operational Definitions

A variable is a factor or element that can be changed and manipulated in ways that are observable and measurable. However, the researcher must also define how the variable will be manipulated and measured in the study.

Operational definitions are specific definitions for all relevant factors in a study. This process helps make vague or ambiguous concepts detailed and measurable.

For example, a researcher might operationally define the variable " test anxiety " as the results of a self-report measure of anxiety experienced during an exam. A "study habits" variable might be defined by the amount of studying that actually occurs as measured by time.

These precise descriptions are important because many things can be measured in various ways. Clearly defining these variables and how they are measured helps ensure that other researchers can replicate your results.

Replicability

One of the basic principles of any type of scientific research is that the results must be replicable.

Replication means repeating an experiment in the same way to produce the same results. By clearly detailing the specifics of how the variables were measured and manipulated, other researchers can better understand the results and repeat the study if needed.

Some variables are more difficult than others to define. For example, how would you operationally define a variable such as aggression ? For obvious ethical reasons, researchers cannot create a situation in which a person behaves aggressively toward others.

To measure this variable, the researcher must devise a measurement that assesses aggressive behavior without harming others. The researcher might utilize a simulated task to measure aggressiveness in this situation.

Hypothesis Checklist

Does your hypothesis focus on something that you can actually test?
Does your hypothesis include both an independent and dependent variable?
Can you manipulate the variables?
Can your hypothesis be tested without violating ethical standards?

The hypothesis you use will depend on what you are investigating and hoping to find. Some of the main types of hypotheses that you might use include:

Simple hypothesis : This type of hypothesis suggests there is a relationship between one independent variable and one dependent variable.
Complex hypothesis : This type suggests a relationship between three or more variables, such as two independent and dependent variables.
Null hypothesis : This hypothesis suggests no relationship exists between two or more variables.
Alternative hypothesis : This hypothesis states the opposite of the null hypothesis.
Statistical hypothesis : This hypothesis uses statistical analysis to evaluate a representative population sample and then generalizes the findings to the larger group.
Logical hypothesis : This hypothesis assumes a relationship between variables without collecting data or evidence.

A hypothesis often follows a basic format of "If {this happens} then {this will happen}." One way to structure your hypothesis is to describe what will happen to the dependent variable if you change the independent variable .

The basic format might be: "If {these changes are made to a certain independent variable}, then we will observe {a change in a specific dependent variable}."

A few examples of simple hypotheses:

"Students who eat breakfast will perform better on a math exam than students who do not eat breakfast."
"Students who experience test anxiety before an English exam will get lower scores than students who do not experience test anxiety."
"Motorists who talk on the phone while driving will be more likely to make errors on a driving course than those who do not talk on the phone."
"Children who receive a new reading intervention will have higher reading scores than students who do not receive the intervention."

Examples of a complex hypothesis include:

"People with high-sugar diets and sedentary activity levels are more likely to develop depression."
"Younger people who are regularly exposed to green, outdoor areas have better subjective well-being than older adults who have limited exposure to green spaces."

Examples of a null hypothesis include:

"There is no difference in anxiety levels between people who take St. John's wort supplements and those who do not."
"There is no difference in scores on a memory recall task between children and adults."
"There is no difference in aggression levels between children who play first-person shooter games and those who do not."

Examples of an alternative hypothesis:

"People who take St. John's wort supplements will have less anxiety than those who do not."
"Adults will perform better on a memory task than children."
"Children who play first-person shooter games will show higher levels of aggression than children who do not."

Collecting Data on Your Hypothesis

Once a researcher has formed a testable hypothesis, the next step is to select a research design and start collecting data. The research method depends largely on exactly what they are studying. There are two basic types of research methods: descriptive research and experimental research.

Descriptive Research Methods

Descriptive research such as case studies , naturalistic observations , and surveys are often used when conducting an experiment is difficult or impossible. These methods are best used to describe different aspects of a behavior or psychological phenomenon.

Once a researcher has collected data using descriptive methods, a correlational study can examine how the variables are related. This research method might be used to investigate a hypothesis that is difficult to test experimentally.

Experimental Research Methods

Experimental methods are used to demonstrate causal relationships between variables. In an experiment, the researcher systematically manipulates a variable of interest (known as the independent variable) and measures the effect on another variable (known as the dependent variable).

Unlike correlational studies, which can only be used to determine if there is a relationship between two variables, experimental methods can be used to determine the actual nature of the relationship—whether changes in one variable actually cause another to change.

The hypothesis is a critical part of any scientific exploration. It represents what researchers expect to find in a study or experiment. In situations where the hypothesis is unsupported by the research, the research still has value. Such research helps us better understand how different aspects of the natural world relate to one another. It also helps us develop new hypotheses that can then be tested in the future.

Thompson WH, Skau S. On the scope of scientific hypotheses . R Soc Open Sci . 2023;10(8):230607. doi:10.1098/rsos.230607

Taran S, Adhikari NKJ, Fan E. Falsifiability in medicine: what clinicians can learn from Karl Popper [published correction appears in Intensive Care Med. 2021 Jun 17;:]. Intensive Care Med . 2021;47(9):1054-1056. doi:10.1007/s00134-021-06432-z

Eyler AA. Research Methods for Public Health . 1st ed. Springer Publishing Company; 2020. doi:10.1891/9780826182067.0004

Nosek BA, Errington TM. What is replication ? PLoS Biol . 2020;18(3):e3000691. doi:10.1371/journal.pbio.3000691

Aggarwal R, Ranganathan P. Study designs: Part 2 - Descriptive studies . Perspect Clin Res . 2019;10(1):34-36. doi:10.4103/picr.PICR_154_18

Nevid J. Psychology: Concepts and Applications. Wadworth, 2013.

By Kendra Cherry, MSEd Kendra Cherry, MS, is a psychosocial rehabilitation specialist, psychology educator, and author of the "Everything Psychology Book."

15 Hypothesis Examples

hypothesis definition and example, explained below

A hypothesis is defined as a testable prediction , and is used primarily in scientific experiments as a potential or predicted outcome that scientists attempt to prove or disprove (Atkinson et al., 2021; Tan, 2022).

In my types of hypothesis article, I outlined 13 different hypotheses, including the directional hypothesis (which makes a prediction about an effect of a treatment will be positive or negative) and the associative hypothesis (which makes a prediction about the association between two variables).

This article will dive into some interesting examples of hypotheses and examine potential ways you might test each one.

Hypothesis Examples

1. “inadequate sleep decreases memory retention”.

Field: Psychology

Type: Causal Hypothesis A causal hypothesis explores the effect of one variable on another. This example posits that a lack of adequate sleep causes decreased memory retention. In other words, if you are not getting enough sleep, your ability to remember and recall information may suffer.

How to Test:

To test this hypothesis, you might devise an experiment whereby your participants are divided into two groups: one receives an average of 8 hours of sleep per night for a week, while the other gets less than the recommended sleep amount.

During this time, all participants would daily study and recall new, specific information. You’d then measure memory retention of this information for both groups using standard memory tests and compare the results.

Should the group with less sleep have statistically significant poorer memory scores, the hypothesis would be supported.

Ensuring the integrity of the experiment requires taking into account factors such as individual health differences, stress levels, and daily nutrition.

Relevant Study: Sleep loss, learning capacity and academic performance (Curcio, Ferrara & De Gennaro, 2006)

2. “Increase in Temperature Leads to Increase in Kinetic Energy”

Field: Physics

Type: Deductive Hypothesis The deductive hypothesis applies the logic of deductive reasoning – it moves from a general premise to a more specific conclusion. This specific hypothesis assumes that as temperature increases, the kinetic energy of particles also increases – that is, when you heat something up, its particles move around more rapidly.

This hypothesis could be examined by heating a gas in a controlled environment and capturing the movement of its particles as a function of temperature.

You’d gradually increase the temperature and measure the kinetic energy of the gas particles with each increment. If the kinetic energy consistently rises with the temperature, your hypothesis gets supporting evidence.

Variables such as pressure and volume of the gas would need to be held constant to ensure validity of results.

3. “Children Raised in Bilingual Homes Develop Better Cognitive Skills”

Field: Psychology/Linguistics

Type: Comparative Hypothesis The comparative hypothesis posits a difference between two or more groups based on certain variables. In this context, you might propose that children raised in bilingual homes have superior cognitive skills compared to those raised in monolingual homes.

Testing this hypothesis could involve identifying two groups of children: those raised in bilingual homes, and those raised in monolingual homes.

Cognitive skills in both groups would be evaluated using a standard cognitive ability test at different stages of development. The examination would be repeated over a significant time period for consistency.

If the group raised in bilingual homes persistently scores higher than the other, the hypothesis would thereby be supported.

The challenge for the researcher would be controlling for other variables that could impact cognitive development, such as socio-economic status, education level of parents, and parenting styles.

Relevant Study: The cognitive benefits of being bilingual (Marian & Shook, 2012)

4. “High-Fiber Diet Leads to Lower Incidences of Cardiovascular Diseases”

Field: Medicine/Nutrition

Type: Alternative Hypothesis The alternative hypothesis suggests an alternative to a null hypothesis. In this context, the implied null hypothesis could be that diet has no effect on cardiovascular health, which the alternative hypothesis contradicts by suggesting that a high-fiber diet leads to fewer instances of cardiovascular diseases.

To test this hypothesis, a longitudinal study could be conducted on two groups of participants; one adheres to a high-fiber diet, while the other follows a diet low in fiber.

After a fixed period, the cardiovascular health of participants in both groups could be analyzed and compared. If the group following a high-fiber diet has a lower number of recorded cases of cardiovascular diseases, it would provide evidence supporting the hypothesis.

Control measures should be implemented to exclude the influence of other lifestyle and genetic factors that contribute to cardiovascular health.

Relevant Study: Dietary fiber, inflammation, and cardiovascular disease (King, 2005)

5. “Gravity Influences the Directional Growth of Plants”

Field: Agronomy / Botany

Type: Explanatory Hypothesis An explanatory hypothesis attempts to explain a phenomenon. In this case, the hypothesis proposes that gravity affects how plants direct their growth – both above-ground (toward sunlight) and below-ground (towards water and other resources).

The testing could be conducted by growing plants in a rotating cylinder to create artificial gravity.

Observations on the direction of growth, over a specified period, can provide insights into the influencing factors. If plants consistently direct their growth in a manner that indicates the influence of gravitational pull, the hypothesis is substantiated.

It is crucial to ensure that other growth-influencing factors, such as light and water, are uniformly distributed so that only gravity influences the directional growth.

6. “The Implementation of Gamified Learning Improves Students’ Motivation”

Field: Education

Type: Relational Hypothesis The relational hypothesis describes the relation between two variables. Here, the hypothesis is that the implementation of gamified learning has a positive effect on the motivation of students.

To validate this proposition, two sets of classes could be compared: one that implements a learning approach with game-based elements, and another that follows a traditional learning approach.

The students’ motivation levels could be gauged by monitoring their engagement, performance, and feedback over a considerable timeframe.

If the students engaged in the gamified learning context present higher levels of motivation and achievement, the hypothesis would be supported.

Control measures ought to be put into place to account for individual differences, including prior knowledge and attitudes towards learning.

Relevant Study: Does educational gamification improve students’ motivation? (Chapman & Rich, 2018)

7. “Mathematics Anxiety Negatively Affects Performance”

Field: Educational Psychology

Type: Research Hypothesis The research hypothesis involves making a prediction that will be tested. In this case, the hypothesis proposes that a student’s anxiety about math can negatively influence their performance in math-related tasks.

To assess this hypothesis, researchers must first measure the mathematics anxiety levels of a sample of students using a validated instrument, such as the Mathematics Anxiety Rating Scale.

Then, the students’ performance in mathematics would be evaluated through standard testing. If there’s a negative correlation between the levels of math anxiety and math performance (meaning as anxiety increases, performance decreases), the hypothesis would be supported.

It would be crucial to control for relevant factors such as overall academic performance and previous mathematical achievement.

8. “Disruption of Natural Sleep Cycle Impairs Worker Productivity”

Field: Organizational Psychology

Type: Operational Hypothesis The operational hypothesis involves defining the variables in measurable terms. In this example, the hypothesis posits that disrupting the natural sleep cycle, for instance through shift work or irregular working hours, can lessen productivity among workers.

To test this hypothesis, you could collect data from workers who maintain regular working hours and those with irregular schedules.

Measuring productivity could involve examining the worker’s ability to complete tasks, the quality of their work, and their efficiency.

If workers with interrupted sleep cycles demonstrate lower productivity compared to those with regular sleep patterns, it would lend support to the hypothesis.

Consideration should be given to potential confounding variables such as job type, worker age, and overall health.

9. “Regular Physical Activity Reduces the Risk of Depression”

Field: Health Psychology

Type: Predictive Hypothesis A predictive hypothesis involves making a prediction about the outcome of a study based on the observed relationship between variables. In this case, it is hypothesized that individuals who engage in regular physical activity are less likely to suffer from depression.

Longitudinal studies would suit to test this hypothesis, tracking participants’ levels of physical activity and their mental health status over time.

The level of physical activity could be self-reported or monitored, while mental health status could be assessed using standard diagnostic tools or surveys.

If data analysis shows that participants maintaining regular physical activity have a lower incidence of depression, this would endorse the hypothesis.

However, care should be taken to control other lifestyle and behavioral factors that could intervene with the results.

Relevant Study: Regular physical exercise and its association with depression (Kim, 2022)

10. “Regular Meditation Enhances Emotional Stability”

Type: Empirical Hypothesis In the empirical hypothesis, predictions are based on amassed empirical evidence . This particular hypothesis theorizes that frequent meditation leads to improved emotional stability, resonating with numerous studies linking meditation to a variety of psychological benefits.

Earlier studies reported some correlations, but to test this hypothesis directly, you’d organize an experiment where one group meditates regularly over a set period while a control group doesn’t.

Both groups’ emotional stability levels would be measured at the start and end of the experiment using a validated emotional stability assessment.

If regular meditators display noticeable improvements in emotional stability compared to the control group, the hypothesis gains credit.

You’d have to ensure a similar emotional baseline for all participants at the start to avoid skewed results.

11. “Children Exposed to Reading at an Early Age Show Superior Academic Progress”

Type: Directional Hypothesis The directional hypothesis predicts the direction of an expected relationship between variables. Here, the hypothesis anticipates that early exposure to reading positively affects a child’s academic advancement.

A longitudinal study tracking children’s reading habits from an early age and their consequent academic performance could validate this hypothesis.

Parents could report their children’s exposure to reading at home, while standardized school exam results would provide a measure of academic achievement.

If the children exposed to early reading consistently perform better acadically, it gives weight to the hypothesis.

However, it would be important to control for variables that might impact academic performance, such as socioeconomic background, parental education level, and school quality.

12. “Adopting Energy-efficient Technologies Reduces Carbon Footprint of Industries”

Field: Environmental Science

Type: Descriptive Hypothesis A descriptive hypothesis predicts the existence of an association or pattern related to variables. In this scenario, the hypothesis suggests that industries adopting energy-efficient technologies will resultantly show a reduced carbon footprint.

Global industries making use of energy-efficient technologies could track their carbon emissions over time. At the same time, others not implementing such technologies continue their regular tracking.

After a defined time, the carbon emission data of both groups could be compared. If industries that adopted energy-efficient technologies demonstrate a notable reduction in their carbon footprints, the hypothesis would hold strong.

In the experiment, you would exclude variations brought by factors such as industry type, size, and location.

13. “Reduced Screen Time Improves Sleep Quality”

Type: Simple Hypothesis The simple hypothesis is a prediction about the relationship between two variables, excluding any other variables from consideration. This example posits that by reducing time spent on devices like smartphones and computers, an individual should experience improved sleep quality.

A sample group would need to reduce their daily screen time for a pre-determined period. Sleep quality before and after the reduction could be measured using self-report sleep diaries and objective measures like actigraphy, monitoring movement and wakefulness during sleep.

If the data shows that sleep quality improved post the screen time reduction, the hypothesis would be validated.

Other aspects affecting sleep quality, like caffeine intake, should be controlled during the experiment.

Relevant Study: Screen time use impacts low‐income preschool children’s sleep quality, tiredness, and ability to fall asleep (Waller et al., 2021)

14. Engaging in Brain-Training Games Improves Cognitive Functioning in Elderly

Field: Gerontology

Type: Inductive Hypothesis Inductive hypotheses are based on observations leading to broader generalizations and theories. In this context, the hypothesis deduces from observed instances that engaging in brain-training games can help improve cognitive functioning in the elderly.

A longitudinal study could be conducted where an experimental group of elderly people partakes in regular brain-training games.

Their cognitive functioning could be assessed at the start of the study and at regular intervals using standard neuropsychological tests.

If the group engaging in brain-training games shows better cognitive functioning scores over time compared to a control group not playing these games, the hypothesis would be supported.

15. Farming Practices Influence Soil Erosion Rates

Type: Null Hypothesis A null hypothesis is a negative statement assuming no relationship or difference between variables. The hypothesis in this context asserts there’s no effect of different farming practices on the rates of soil erosion.

Comparing soil erosion rates in areas with different farming practices over a considerable timeframe could help test this hypothesis.

If, statistically, the farming practices do not lead to differences in soil erosion rates, the null hypothesis is accepted.

However, if marked variation appears, the null hypothesis is rejected, meaning farming practices do influence soil erosion rates. It would be crucial to control for external factors like weather, soil type, and natural vegetation.

The variety of hypotheses mentioned above underscores the diversity of research constructs inherent in different fields, each with its unique purpose and way of testing.

While researchers may develop hypotheses primarily as tools to define and narrow the focus of the study, these hypotheses also serve as valuable guiding forces for the data collection and analysis procedures, making the research process more efficient and direction-focused.

Hypotheses serve as a compass for any form of academic research. The diverse examples provided, from Psychology to Educational Studies, Environmental Science to Gerontology, clearly demonstrate how certain hypotheses suit specific fields more aptly than others.

It is important to underline that although these varied hypotheses differ in their structure and methods of testing, each endorses the fundamental value of empiricism in research. Evidence-based decision making remains at the heart of scholarly inquiry, regardless of the research field, thus aligning all hypotheses to the core purpose of scientific investigation.

Testing hypotheses is an essential part of the scientific method . By doing so, researchers can either confirm their predictions, giving further validity to an existing theory, or they might uncover new insights that could potentially shift the field’s understanding of a particular phenomenon. In either case, hypotheses serve as the stepping stones for scientific exploration and discovery.

Atkinson, P., Delamont, S., Cernat, A., Sakshaug, J. W., & Williams, R. A. (2021). SAGE research methods foundations . SAGE Publications Ltd.

Curcio, G., Ferrara, M., & De Gennaro, L. (2006). Sleep loss, learning capacity and academic performance. Sleep medicine reviews , 10 (5), 323-337.

Kim, J. H. (2022). Regular physical exercise and its association with depression: A population-based study short title: Exercise and depression. Psychiatry Research , 309 , 114406.

King, D. E. (2005). Dietary fiber, inflammation, and cardiovascular disease. Molecular nutrition & food research , 49 (6), 594-600.

Marian, V., & Shook, A. (2012, September). The cognitive benefits of being bilingual. In Cerebrum: the Dana forum on brain science (Vol. 2012). Dana Foundation.

Tan, W. C. K. (2022). Research Methods: A Practical Guide For Students And Researchers (Second Edition) . World Scientific Publishing Company.

Waller, N. A., Zhang, N., Cocci, A. H., D’Agostino, C., Wesolek‐Greenson, S., Wheelock, K., … & Resnicow, K. (2021). Screen time use impacts low‐income preschool children’s sleep quality, tiredness, and ability to fall asleep. Child: care, health and development, 47 (5), 618-626.

Chris Drew (PhD)

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

Chris Drew (PhD) https://helpfulprofessor.com/author/chris-drew-phd/ 15 Self-Actualization Examples (Maslow's Hierarchy)
Chris Drew (PhD) https://helpfulprofessor.com/author/chris-drew-phd/ Forest Schools Philosophy & Curriculum, Explained!
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Hypothesis Examples

A hypothesis has classical been referred to as an educated guess. In the context of the scientific method, this description is somewhat correct. After a problem is identified, the scientist would typically conduct some research about the problem and then make a hypothesis about what will happen during his or her experiment. A better explanation of the purpose of a hypothesis is that a hypothesis is a proposed solution to a problem. Hypotheses have not yet been supported by any measurable data. In fact, we often confuse this term with the word theory in our everyday language. People say that they have theories about different situations and problems that occur in their lives but a theory implies that there has been much data to support the explanation. When we use this term we are actually referring to a hypothesis. For example, someone might say, "I have a theory about why Jane won't go out on a date with Billy." Since there is no data to support this explanation, this is actually a hypothesis. In the world of statistics and science, most hypotheses are written as "if...then" statements. For example someone performing experiments on plant growth might report this hypothesis: "If I give a plant an unlimited amount of sunlight, then the plant will grow to its largest possible size." Hypotheses cannot be proven correct from the data obtained in the experiment, instead hypotheses are either supported by the data collected or refuted by the data collected.

1. If I replace the battery in my car, then my car will get better gas mileage.

2. If I eat more vegetables, then I will lose weight faster.

3. If I add fertilizer to my garden, then my plants will grow faster.

4. If I brush my teeth every day, then I will not develop cavities.

5. If I take my vitamins every day, then I will not feel tired.

6. If 50 mL of water are added to my plants each day and they grow, then adding 100 mL of water each day will make them grow even more.

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B.A., Physics and Mathematics, Hastings College

Try these ideas for science experiments targeted at the high school educational level. Perform a science experiment and explore different hypotheses to test.

Caffeine Experiments

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You've probably heard that caffeine acts as a stimulant and may increase your concentration when you are under its influence. You can test this with an experiment.

Sample Hypothesis:

Caffeine use does not affect typing speed .
Caffeine does not affect concentration.

Student Conformity Experiments

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You are in a large group of students and the instructor asks the class what 9 x 7 is. One student says it is 54. So does the next. Do you fully trust your answer of 63? We are influenced by the beliefs of the people around us and sometimes conform to what the group believes. You can study the degree to which social pressure affects conformity.

The number of students will not affect student conformity.
Age does not affect student conformity.
Gender has no effect on student conformity.

Smoke Bomb Experiments

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Smoke bombs are fun for kids of all ages but are probably not appropriate experiment subjects for kids younger than high school level. Smoke bombs offer an interesting way to learn about combustion. They can be used as propellants in rockets, too.

The ratio of smoke bomb ingredients will not affect the quantity of smoke that is produced.
The ratio of ingredients will not affect the range of a smoke bomb rocket.

Hand Sanitizer Experiments

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Hand sanitizer is supposed to keep germs under control on your hands. You can culture bacteria to see if hand sanitizer is effective. You can compare different types of hand sanitizer to see if one works better than another. Can you make an effective natural hand sanitizer? Is hand sanitizer biodegradable?

There is no difference in the effectiveness of different hand sanitizers.
Hand sanitizer is biodegradable.
There is no difference in effectiveness between homemade hand sanitizer and commercial hand sanitizer.
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How to Write a Hypothesis: Lesson for Kids

Jen has taught Science in accredited schools in North & South America for twenty years and has a degree in Sociology (Epidemiology & Aids Research). Her work in quantitative data has been published in the National Academy of Sciences of the United States of America & Cambridge University Press.

Laura received her Master's degree in Pure Mathematics from Michigan State University, and her Bachelor's degree in Mathematics from Grand Valley State University. She has 20 years of experience teaching collegiate mathematics at various institutions.

What is a hypothesis, how to write a hypothesis, helpful hints, lesson summary.

Imagine you're hiking in the forest and come across one burnt tree. You might ask yourself, 'what happened to this tree?' You might then try to answer your own question. Maybe there was a fire. No, that isn't possible because the other trees are healthy. Maybe it was lightning? That seems more likely - there have been thunderstorms every day this week; this tree is the tallest in the forest, and lightning can burn objects. Congratulations, you just created what scientists refer to as a hypothesis!

A hypothesis is a prediction or possible explanation for a question that needs to be investigated. Coming up with a hypothesis is one step in the scientific method, which we use when we perform scientific experiments. You may have heard your parents or teacher use the phrase 'make an educated guess.' A hypothesis is kind of like that. It uses what you already know in order to make a well-thought out prediction. If you don't know much about a topic, then you'll need to do some research before making a hypothesis or moving forward in your experiment.

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0:04 What Is a Hypothesis?
1:08 How to Write a Hypothesis
3:08 Helpful Hints
3:31 Lesson Summary

Let's begin by looking at two different sentences:

The sun will rise tomorrow.
If I use fertilizer, then the plants will produce more flowers.

The first sentence is a statement and cannot be tested. However, the second sentence is a question that can be proved or disproved by doing a test. All hypotheses must be written so they can be tested with an experiment. Not only are experiments super fun, but they give you an answer to the question you're trying to answer with your hypothesis.

Writing a hypothesis is like following a recipe. You will use the same basic ingredients as your foundation each time. Follow this easy formula to write a strong hypothesis:

If (I do this), then (this will happen). We call this an if - then statement.

Here are some examples of an if - then statement:

If I eat ice cream everyday, then I will gain weight.

Writing your hypothesis as an if - then statement is helpful because it includes variables. Variables are the parts of your hypothesis that can be measured and changed by the experimenter. Having variables in your hypothesis will assure it is testable . In other words, a test can be done to prove or disprove the hypothesis.

What are the variables in the hypotheses we just came up with?

The amount of flowers produced is what is being measured, and the amount of fertilizer is what changes.
The amount of weight gained is what is being measured, and the quantity of ice cream eaten is what changes.

Writing your hypothesis as an if -> then statement is the perfect place to begin. You can take away the words 'if' and 'then' as you become more comfortable writing a hypothesis.

Here are a few examples:

When there is more fertilizer in the soil, the plants produce more flowers.
When large quantities of ice cream are eaten each day, weight will be gained.

Notice that even though you're not using the words 'if' and 'then,' the statement is still expressing cause and effect.

Keep these tips in mind when developing a hypothesis.

A good hypothesis has these characteristics:

Predicts cause and effect
Is testable
Has variables
Is written as a statement, not a question
Is clear and simple
Includes research about your topic before writing your hypothesis

In this lesson, we learned how to write a hypothesis , a prediction or possible explanation for a question that needs to be investigated. A good hypothesis has variables and is testable. Variables can be measured and changed by the experimenter. A testable experiment tells us if our hypothesis was correct.

Scenario Activity for Identifying Hypotheses:

A hypothesis is a prediction of an outcome that can be tested using an experiment.
A hypothesis has variables, or aspects, of an experiment that change and can be measured.

Theresa and Jerry are making cupcakes for a class bake sale, and have the following conversation:

Theresa: I love making cupcakes! I think that if we make more vanilla cupcakes than chocolate ones, then they will sell better.

Jerry: I agree! I like vanilla better than chocolate, but I think that if we also make some peanut butter cupcakes, then those ones will sell the best.

Theresa: Okay, we can make some peanut butter ones as well. Since we are making so many different kinds of cupcakes, we better hurry, because it's going to get dark soon, and I have to be home before dark.

Jerry: We'll go as fast as we can, but I'm pretty sure that if you call your parents and tell them you'll be a little late, then they will allow you to come home after dark.

In the conversation, Theresa states that it is going to get dark soon. Is this a hypothesis? Why or why not?
In the conversation, Jerry states that he believes that if they make peanut butter cupcakes, then they will sell the best. Is this a hypothesis? Why or why not?
In the conversation, Jerry states that he likes vanilla cupcakes better than chocolate cupcakes. Is this a hypothesis? Why or why not?
From the conversation, list all of the hypotheses you can find.
This is not a hypothesis, because the statement "it is going to get dark soon" cannot be tested.
This is a hypothesis because the statement can be tested by making peanut butter cupcakes and then seeing if they sell them better than the other flavors.
This is not a hypothesis. Rather, the statement that Jerry likes vanilla cupcakes better than chocolate cupcakes is simply an opinion, and cannot be tested since it is already a conclusion.
The hypotheses in the conversation are as follows:
If they make more vanilla cupcakes than chocolate cupcakes, then they will sell better.
If they make peanut butter cupcakes, then they will sell the best.
If you call your parents and tell them you'll be a little late, then they will allow you to come home after dark.

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Null and Alternative Hypotheses | Definitions & Examples

Null & Alternative Hypotheses | Definitions, Templates & Examples

Published on May 6, 2022 by Shaun Turney . Revised on June 22, 2023.

The null and alternative hypotheses are two competing claims that researchers weigh evidence for and against using a statistical test :

Null hypothesis ( H 0 ): There’s no effect in the population .
Alternative hypothesis ( H a or H 1 ) : There’s an effect in the population.

Answering your research question with hypotheses, what is a null hypothesis, what is an alternative hypothesis, similarities and differences between null and alternative hypotheses, how to write null and alternative hypotheses, other interesting articles, frequently asked questions.

The null and alternative hypotheses offer competing answers to your research question . When the research question asks “Does the independent variable affect the dependent variable?”:

The null hypothesis ( H 0 ) answers “No, there’s no effect in the population.”
The alternative hypothesis ( H a ) answers “Yes, there is an effect in the population.”

The null and alternative are always claims about the population. That’s because the goal of hypothesis testing is to make inferences about a population based on a sample . Often, we infer whether there’s an effect in the population by looking at differences between groups or relationships between variables in the sample. It’s critical for your research to write strong hypotheses .

You can use a statistical test to decide whether the evidence favors the null or alternative hypothesis. Each type of statistical test comes with a specific way of phrasing the null and alternative hypothesis. However, the hypotheses can also be phrased in a general way that applies to any test.

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The null hypothesis is the claim that there’s no effect in the population.

If the sample provides enough evidence against the claim that there’s no effect in the population ( p ≤ α), then we can reject the null hypothesis . Otherwise, we fail to reject the null hypothesis.

Although “fail to reject” may sound awkward, it’s the only wording that statisticians accept . Be careful not to say you “prove” or “accept” the null hypothesis.

Null hypotheses often include phrases such as “no effect,” “no difference,” or “no relationship.” When written in mathematical terms, they always include an equality (usually =, but sometimes ≥ or ≤).

You can never know with complete certainty whether there is an effect in the population. Some percentage of the time, your inference about the population will be incorrect. When you incorrectly reject the null hypothesis, it’s called a type I error . When you incorrectly fail to reject it, it’s a type II error.

Examples of null hypotheses

The table below gives examples of research questions and null hypotheses. There’s always more than one way to answer a research question, but these null hypotheses can help you get started.

	( )

Does tooth flossing affect the number of cavities?	Tooth flossing has on the number of cavities.	test: The mean number of cavities per person does not differ between the flossing group (µ ) and the non-flossing group (µ ) in the population; µ = µ .
Does the amount of text highlighted in the textbook affect exam scores?	The amount of text highlighted in the textbook has on exam scores.	: There is no relationship between the amount of text highlighted and exam scores in the population; β = 0.
Does daily meditation decrease the incidence of depression?	Daily meditation the incidence of depression.*	test: The proportion of people with depression in the daily-meditation group ( ) is greater than or equal to the no-meditation group ( ) in the population; ≥ .

*Note that some researchers prefer to always write the null hypothesis in terms of “no effect” and “=”. It would be fine to say that daily meditation has no effect on the incidence of depression and p 1 = p 2 .

The alternative hypothesis ( H a ) is the other answer to your research question . It claims that there’s an effect in the population.

Often, your alternative hypothesis is the same as your research hypothesis. In other words, it’s the claim that you expect or hope will be true.

The alternative hypothesis is the complement to the null hypothesis. Null and alternative hypotheses are exhaustive, meaning that together they cover every possible outcome. They are also mutually exclusive, meaning that only one can be true at a time.

Alternative hypotheses often include phrases such as “an effect,” “a difference,” or “a relationship.” When alternative hypotheses are written in mathematical terms, they always include an inequality (usually ≠, but sometimes < or >). As with null hypotheses, there are many acceptable ways to phrase an alternative hypothesis.

Examples of alternative hypotheses

The table below gives examples of research questions and alternative hypotheses to help you get started with formulating your own.



Does tooth flossing affect the number of cavities?	Tooth flossing has an on the number of cavities.	test: The mean number of cavities per person differs between the flossing group (µ ) and the non-flossing group (µ ) in the population; µ ≠ µ .
Does the amount of text highlighted in a textbook affect exam scores?	The amount of text highlighted in the textbook has an on exam scores.	: There is a relationship between the amount of text highlighted and exam scores in the population; β ≠ 0.
Does daily meditation decrease the incidence of depression?	Daily meditation the incidence of depression.	test: The proportion of people with depression in the daily-meditation group ( ) is less than the no-meditation group ( ) in the population; < .

Null and alternative hypotheses are similar in some ways:

They’re both answers to the research question.
They both make claims about the population.
They’re both evaluated by statistical tests.

However, there are important differences between the two types of hypotheses, summarized in the following table.


	A claim that there is in the population.	A claim that there is in the population.


	Equality symbol (=, ≥, or ≤)	Inequality symbol (≠, <, or >)
	Rejected	Supported
	Failed to reject	Not supported

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To help you write your hypotheses, you can use the template sentences below. If you know which statistical test you’re going to use, you can use the test-specific template sentences. Otherwise, you can use the general template sentences.

General template sentences

The only thing you need to know to use these general template sentences are your dependent and independent variables. To write your research question, null hypothesis, and alternative hypothesis, fill in the following sentences with your variables:

Does independent variable affect dependent variable ?

Null hypothesis ( H 0 ): Independent variable does not affect dependent variable.
Alternative hypothesis ( H a ): Independent variable affects dependent variable.

Test-specific template sentences

Once you know the statistical test you’ll be using, you can write your hypotheses in a more precise and mathematical way specific to the test you chose. The table below provides template sentences for common statistical tests.

	( )
test with two groups	The mean dependent variable does not differ between group 1 (µ ) and group 2 (µ ) in the population; µ = µ .	The mean dependent variable differs between group 1 (µ ) and group 2 (µ ) in the population; µ ≠ µ .
with three groups	The mean dependent variable does not differ between group 1 (µ ), group 2 (µ ), and group 3 (µ ) in the population; µ = µ = µ .	The mean dependent variable of group 1 (µ ), group 2 (µ ), and group 3 (µ ) are not all equal in the population.
	There is no correlation between independent variable and dependent variable in the population; ρ = 0.	There is a correlation between independent variable and dependent variable in the population; ρ ≠ 0.
	There is no relationship between independent variable and dependent variable in the population; β = 0.	There is a relationship between independent variable and dependent variable in the population; β ≠ 0.
Two-proportions test	The dependent variable expressed as a proportion does not differ between group 1 ( ) and group 2 ( ) in the population; = .	The dependent variable expressed as a proportion differs between group 1 ( ) and group 2 ( ) in the population; ≠ .

Note: The template sentences above assume that you’re performing one-tailed tests . One-tailed tests are appropriate for most studies.

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

Normal distribution
Descriptive statistics
Measures of central tendency
Correlation coefficient

Methodology

Cluster sampling
Stratified sampling
Types of interviews
Cohort study
Thematic analysis

Research bias

Implicit bias
Cognitive bias
Survivorship bias
Availability heuristic
Nonresponse bias
Regression to the mean

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.

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.

The null hypothesis is often abbreviated as H 0 . When the null hypothesis is written using mathematical symbols, it always includes an equality symbol (usually =, but sometimes ≥ or ≤).

The alternative hypothesis is often abbreviated as H a or H 1 . When the alternative hypothesis is written using mathematical symbols, it always includes an inequality symbol (usually ≠, but sometimes < or >).

A research hypothesis is your proposed answer to your research question. The research hypothesis usually includes an explanation (“ x affects y because …”).

A statistical hypothesis, on the other hand, is a mathematical statement about a population parameter. Statistical hypotheses always come in pairs: the null and alternative hypotheses . In a well-designed study , the statistical hypotheses correspond logically to the research hypothesis.

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Curriculum Resources > High School Science Fair Projects

High School Science Fair Projects

Below you’ll find a list of high school science fair projects. Choose a topic that interests you, then begin your preliminary research.

High school science fair projects require a high level of original thought and development. Consider these ideas as springboards to help develop your own original project. To participate in an upper-level competition, your project should be relevant to current science and technology. The project should also present a benefit to society.

High School Science Fair Project Resources

For tips on performing your experiment and presenting your project, see our free science fair guide.

To start brainstorming, explore our Science Fair category for more project ideas and helpful kits.

Ideas for High School Science Fair Projects

Life science.

Compare the effect of antibiotics on gram-positive and gram-negative bacteria. (Grow your own cultures with agar & petri dishes . For a sample procedure and more project ideas, see our bacteria science project guide .)

Run a bioassay to test for toxicity in water or soil .
Test the effect of ultraviolet radiation on bacteria growth.
Do different types of bread grow different types of mold? Does temperature or light affect mold growth?
Experiment with plant genetics (plant hybrids, cross-breeding).
Test factors like smoke or pollution that might affect transpiration rates for plants.
Investigate the effects of increased oxygen or carbon dioxide concentration on plant germination.
Find out the differences in properties and effects of organic vs. chemical fertilizers.
Explore methods of erosion prevention, test effects of different soil composition on erosion (e.g. how does more clay compare to more sand?).
Experiment with methods of flood management and containment.
Investigate the effects of sunspots on weather patterns.
Work with methods for forecasting weather .
Test the concentration and effect of minerals and pH in soil and water samples. (Use water test strips and a soil analyzer .)
Determine chemical makeup of rain in your area; test possible hazardous effects.

Physical Science

Study acoustic models and methods of noise control. (A sound measurement kit/ might be helpful.)
Experiment with the effect of storage temperatures on batteries.
Develop improvements in battery chargers; try methods of using solar cells to recharge batteries.
Compare the bending strength and durability of different building materials.
Build a potato-powered battery .
Experiment with building materials that are fire-preventative.
Design industrial uses of magnets ; test the effects of magnetic and electromagnetic fields on living organisms such as brine shrimp .
Design a project in advanced robotic programming .
Build a sensor-moving advanced Bristlebot robot .
Test the effects of the pH level of a solution on the corrosion of iron and copper ; explore different methods of corrosion prevention.
Experiment with types, effectiveness, and the impact on the nutritional value of preservatives in food.

Compare the properties and effects of artificial sweetener vs. sugar or other natural sweeteners. (For this and the following tests, you might consider the Chemistry of Food kit .)
Test the chemical properties and physiological impact of saturated, unsaturated, and trans fats.
Use indophenol to test the effect of different cooking methods on the depletion of vitamin C in food.
Investigate the role of enzymes and yeast in the fermentation or cheese-making process.
Experiment with different methods of water filtration/purification (such as solar distillation ).
Analyze the by-products of gasoline; compare the efficiency of various octane levels.
Conduct an orange juice titration demonstration

Environmental Science

Compare or develop methods of hydrogen production and storage for use in fuel cells .
Investigate methods of improving home insulation.
Experiment with expanded uses of solar energy .
Test methods for cleaning up and neutralizing the effect of oil in salt water with this oil spill cleanup kit .
Work with methods of processing/recycling non-biodegradable items; experiment with decomposition aids.
Experiment with design and function of wind turbines or water wheels .
Test for harmful effects of pesticides; test or develop natural/organic alternatives; test the effectiveness of common pesticides such as DEET.
Which type and color of roofing material provides the most energy efficiency?

For more in-depth high school science fair project ideas, we recommend the Science Buddies website.

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70 Best High School Science Fair Projects in Every Subject

Fire up the Bunsen burners!

Collage of high school science fair projects, including 3D printed cars and a DIY vacuum chamber

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

Note: Some of these projects were written as classroom labs but can be adapted to become science fair projects too. Just consider variables that you can change up, like materials or other parameters. That changes a classroom activity into a true scientific method experiment!

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

Difficulty:

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

Chemistry High School Science Fair Projects

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

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

Extract DNA from an onion

Difficulty: Medium / Materials: Medium

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

Re-create Mendel’s pea plant experiment

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

Make plants move with light

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

Test the 5-second rule

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

Find out if color affects taste

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

See the effects of antibiotics on bacteria

Difficulty: Medium / Materials: Advanced

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

Learn more: Antibiotics Project at Home Science Tools

Witness the carbon cycle in action

Test tubes filled with plants and green and blue liquid

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

Learn more: Carbon Cycle at Science Lessons That Rock

Look for cell mitosis in an onion

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

Test the effects of disinfectants

Petri dish divided in half with bacteria and paper disks on the surface

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

Learn more: Effectiveness of Antiseptics and Disinfectants at Amy Brown Science

Pit hydroponics against soil

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

More Life Sciences and Biology Science Fair Projects for High School

Use these questions and ideas to design your own experiment:

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

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

Break apart covalent bonds

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

Learn more: Covalent Bonds at Teaching Without Chairs

Measure the calories in various foods

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

Detect latent fingerprints

Fingerprint divided into two, one half yellow and one half black

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

Learn more: Fingerprints Project at Hub Pages

Use Alka-Seltzer to explore reaction rate

Difficulty: Easy / Materials: Easy

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

Determine whether sports drinks provide more electrolytes than OJ

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

Turn flames into a rainbow

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

Discover the size of a mole

Supplies needed for mole experiment, included scale, salt, and chalk

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

Learn more: How Big Is a Mole? at Amy Brown Science

Cook up candy to learn mole and molecule calculations

Aluminum foil bowl filled with bubbling liquid over a bunsen burner

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

Learn more: Candy Chemistry at Dunigan Science on TpT

Make soap to understand saponification

Colorful soaps from saponification science experiments for high school

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

Learn more: Saponification at Chemistry Solutions on TpT

Uncover the secrets of evaporation

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

Learn more: Evaporation at Science Projects

More Chemistry Science Fair Projects for High School

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

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

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

Remove the air in a DIY vacuum chamber

DIY vacuum chamber made from a jar and large hypodermic needle

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

Learn more: Vacuum Chamber at Instructables

Put together a mini Tesla coil

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

Boil water in a paper cup

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

Build a better light bulb

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

Measure the speed of light—with your microwave

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

Generate a Lichtenberg figure

Lichtenberg figure generated on a sheet of Plexiglass

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

Learn more: Lichtenberg Figure at Science Notes

Explore the power of friction with sticky note pads

Difficulty: Medium / Materials: Basic

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

Build a cloud chamber to prove background radiation

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

Measure the effect of temperature on resistance

A beaker with a tungsten rod, connected to a multimeter

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

Learn more: Temperature and Resistance at Science Project

Launch the best bottle rocket

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

More Physics Science Fair Projects for High School

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

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

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

Solve a current environmental issue

A science fair project can also be an entry into the Slingshot Challenge . Students produce a 1-minute video with a solution to a current environmental problem (think: uniting creative waste reducers on social media or rehabilitating forests affected by fire) for the chance to receive up to $10,000 in funding.

Construct a model maglev train

Maglev model train built from magnets and wood craft sticks on green felt

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

Learn more: Maglev Model Train at Supermagnete

Design a more efficient wind turbine

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

Re-create Da Vinci’s flying machine

Da Vinci flying machine built from a paper cup and other basic supplies

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

Learn more: Da Vinci Flying Machine at Student Savvy

Design a heart-rate monitor

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

Race 3D printed cars

Simple 3-D printed race cars with vegetables strapped to them (Science Experiments for High School)

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

Learn more: 3D Printed Cars at Instructables

Grow veggies in a hydroponic garden

Vertical hydroponic garden made from PVC pipes and aluminum downspouts

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

Learn more: Hydroponics at Instructables

Grab items with a mechanical claw

KiwiCo hydraulic claw kit (Science Experiments for High School)

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

Learn more: Hydraulic Claw at KiwiCo

Construct a crystal radio

Homemade crystal radio set (Science Experiments for High School)

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

Learn more: Crystal Radio at Scitoys.com

Build a burglar alarm

Simple electronic burglar alarm with a cell phone

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

Learn more: Intruder Alarm at Instructables

Walk across a plastic bottle bridge

Students sitting on a large bridge made of plastic bottles

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

Learn more: TrussFab Structures at Instructables

Looking for more science content? Check out the Best Science Websites for Middle and High School .

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Explore high school science fair projects in biology, chemistry, physics, engineering and more, from easy projects to advanced ideas.

Chemistry experiments including using cabbage to test pH and breaking apart covalent bonds

45 Cool Chemistry Experiments, Demos, and Science Fair Projects

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75+ Realistic Statistics Project Ideas For Students To Score A+

Statistics is one of the major subjects for every student, even in high school or college. These days almost every student is searching for the best, and more practical statistics project ideas. Even if you are a humanities, science or commerce student, you should have a good command of it.

Statistics has many sub-topics such as normal curves, regression, correlation, statistical inference, and many more. But keep in mind that the difficulty level of statistics varies from your study level. It means that statistics concepts can be more difficult for college students than for school students. It implies that statistical project topics would be different for college students and school students. On the other hand, if you are looking for statistics assignment help , then you can get the best assignment help from us.

But before we unveil these good statistics project ideas. Let’s understand what a statistical project is.

What is a Statistical Project?

Table of Contents

A statistical project is the best process of answering the research questions using statistical terminologies and techniques. It also helps us to present the work written in the given report. In statistical projects, the research could be on scientific or generic fields such as advertising, nutrition, and lots more. Therefore the difficulty level of statistical projects varies with research topics. And the statistics concepts also differ from one case to another. You can also visit statanalytica blogs to get assistance for statistical projects assignment idea.

What are Statistics Topics?

There are tons of topics in statistics. The most common statistics topics are normal curves, binomials, regression, correlation, permutation and combinations, statistical inference, and more. And all the statics topics are applicable in our daily life. Whether it is the tech or entertainment industry, everyone uses statistics topics.

Tips for finding easy statistics project ideas

Finding the best and easiest statistics project is not an easy task. But here are some of the best tips that will help you to find easy statistics project ideas:-

Deeply analyze the data presented by the research
Do you have an affirmative statement of the problems that have initiated the research?
Study summary based on your research
Have a deep discussion of the students’ design to clarify the problem.

All these steps will help you to find the best statistics project ideas. The next step is to write down the essential component of the statistics paper, i.e.:-

Data analysis (by understanding the importance of data analytics projects )
Statement of the problem
Summary and conclusion
Research design

Although if you follow these steps precisely, you will surely find the best project on statistics. But we are here to make it easy for you; let’s have a look at

Statistics Project Ideas for High School

Let’s find out the best statistics project ideas for high school that will help you to score good grades and showcase your skills:-

Categorize the researched raw data into qualitative or quantitative
Evaluate the published reports and graphs based on the analyzed data and conclude.
Use dice to evaluate the bias and effect of completing data.
Discuss the factors that can affect the result of the given survey data.
Increasing use of plastic.
Are e-books better than conventional books?
Do extra-curricular activities help transform personalities?
Should stereotypical social issues be highlighted or not?
Should mobile phones be allowed in high schools or not?
The Significance of Medication in Class Performance.
Does the effect of a teacher who is a fresher at university influence the student’s performance?
Influence of Distinct Subjects on Students’ Performance.
Caffeine consumption among students as well as its effect on performance.
Are online classes helpful?
Influence of better students in class.
The significance of the front seats in the class on success rates. Does an online brochure creator reduce marketing costs?

Additional statistics project examples:

The use of mobile phones in the classroom is always a debatable topic. Therefore, it is always a good statistics project idea to write statistics about how many students and teachers are in favor of using mobile phones in the classroom.

Small Business Statistics Project Topics

The impact of the pandemic on small business survival rates.
Analysis of the most profitable industries for small businesses.
Small business failure rates by region and industry.
The relationship between access to funding and small business success rates.
The impact of social media marketing (SMM) on small business growth.
The role of e-commerce in small business growth.
The impact of government regulations on small business success rates.
The gender gap in small business ownership and success rates.
The impact of employee retention on small business growth and success rates.
The relationship between small business growth and community development.
The impact of the gig economy on small business growth.
Analysis of the most common reasons for small business failure.
The role of technology in small business growth and success rates.
The impact of competition on small business survival rates.
The relationship between small business ownership and educational attainment.

Statistics Project Ideas on Socio-Economics

Income versus explanation analysis in society.
Peak traffic times in your city.
The significance of agricultural loans for farmers.
Food habits in low-income families.
Malpractices of low-income groups.
Analysis of road accidents in the suburb and the town area.
The effect of smoking on medical costs.
Regression analysis on national income.
Income vs Consumption Explanation Study in Society.
A Study of the Worldwide Economic Growth
The Influence of the Pandemic on Health in the UK
Influence of Advertisement on Health Costs
The effect of poverty on crime rates.
Do federal elections affect stock prices?

Statistics Project Ideas for University Students (2023)

Analyzing the impact of COVID-19 on a particular industry or economic sector.
Examining the relationship between income and health outcomes in a particular population or geographic area.
Investigate the factors influencing student success in a particular course or academic program.
Analyzing the effectiveness of a specific marketing campaign or promotional strategy.
Evaluating the relationship between social media usage and mental health outcomes.
Examining the impact of climate change on a particular ecosystem or species.
Investigating the factors influencing voter turnout in a particular election or geographic area.
Analyzing the relationship between exercise and mental health outcomes.
Evaluating the effectiveness of a particular intervention or program in addressing a specific social issue, such as poverty or homelessness.
Examining the relationship between crime rates and economic conditions in a particular area.

Statistics Survey Project Ideas

Let’s find out some of the best statistics survey project ideas. Here we go:-

Have a deep statistics analysis on the pollution level across various cities worldwide.
Find out the most selling smartphones globally and used by college students.
Do the behavioral survey of Omicron variant patients across the world.
Conduct a survey about the global warming world.

Sometimes conducting a survey is itself a headache for you. That is why it is better to get easy statistics to project ideas. A survey report on E-books vs Textbooks is a good idea for students to conduct a survey and write down all useful insights collected from the survey report.

Statistics Project Ideas Hypothesis Testing

Statistics project ideas for hypothesis testing are not for everyone. But have a look at some of the best statistic project examples for hypothesis testing:-

Peppermint essential oil affects the pangs of anxiety
Immunity during winter for students who take more vitamin C than those who don’t.
The productivity level of young boys as compared with the young girls.
Obesity level of children whose parents are obese.

Hypothesis testing plays an important role in concluding the most estimated result of the experiment. That is why we always suggest students conduct the hypothesis test for the present situation. Like you consider the students’ choice regarding the subjects. And write the statistical factors, like whether students select their subject based on the industry’s stability or as per their liking.

AP Statistics Project Ideas

Let’s have a look at some of the AP statistics project ideas. If statistics are your primary subject, these projects will impact your grades.

Find out the impact of school jobs and activities on the student’s overall grades.
Who influences the children more on religious views, either the month or the father?
Are age and sleeping related to each other, i.e., adult people tend to sleep less than kids and old-age citizens?
Does plastic surgery change the perspective towards you the people?

To show the study of AP statistics project ideas, you need to offer arguments based on the evidence, perform research, and analyze the issues. You can write a statistics project based on alcohol advertisements and their effect on younger people of these ads.

Statistics Final Project Ideas

A massive number of students look for statistics and final project ideas. Have a look at some of the best final projects in statistics:-

Do high heel sandals harm the body posture of the lady?
Does the patient’s intelligence also affect the brilliance of the child?
Is there any relation to eating hotdogs while watching a baseball match in the stadium?
Does an opinion poll change the initially perceived election results?

If you are a final-year student looking for exciting project ideas, write a statistical report on the regression analysis. The analysis can be done on the national income, and you can put all the ins-outs on this topic with a detailed report.

Two variable statistics project Ideas

Have a look at the two-variable statistics project where one variable affects the other one:-

Are electric cars a good choice to have control over global warming?
Investing in FDIs can help the country to grow its GDP.
Is lockdown the best solution to stop the spread of Coronavirus?
Investing in cryptocurrency can have a significant impact on your future.

Statistics Project Ideas for College Students

There are tons of college statistics project examples. But we will share the best ideas for statistics projects for the college. As we have already discussed, college statistics project ideas are pretty complex compared with school-level projects. Let’s have a look at the best statistics project ideas for college:-

Excessive use of the internet reduces the creativity and innovation skills of the students.
The use of social media has bypassed studying in the students’ free time.
Can college students develop drug habits if given a chance?
Does a college freshman’s experience with their roommate affect their overall experience at the institution?
A comparative study on the pricing of different clothing stores in your town.
College students’ Web browsing habits.
Comparison between male and female students in college.
Statistical analysis of the highway accidents in your local neighborhood.
Students in college choose common subjects.
Choosing aspects of a subject in college.
Course price differentiation in colleges.
There is less interest in the students in humanities subjects as compared with science and technology.
Relationship between birth order as well as academic success.
Is being headstrong difficult, or does it make things easier?
Popular movie genre among students in college.
What kinds of music do college students like the most?
Difference between the male and female population in a city based on their age.
The Significance of Analytics in Studying Statistics
Influence of backbenchers on their performance in class.

Fun Statistics Project Ideas

Have a look at some of the statistics projects examples:-

Most of the volleyball players are tall compared with a few short ones.
Men tend to have more interest in cricket as compared with females.
Shorter and chubby girls are more friendly than tall and skinny girls.
Aggression between students is based on the environment where they grew up.
Students involved in co-curricular activities tend to have lower grades than those who don’t.
Highly pressured employees consume more alcohol than those who do repetitive tasks jobs.

The Point With Statistics Projects Ideas

To write an impressive statistical project, you need to follow some points. Let’s have a look at these points:-

Always work with organized information. If you get unorganized data, try to organize it first and then start working.
Start with an outline, and it will help you to organize the final data of your statistics project. For this, you can also look at previous statistics project examples.
Always write for the beginner’s audience. Don’t expect that your audience already knows everything. For this, be brief, simple, and to the point.
Don’t miss the citation because it always helps showcase your projects’ authenticity. And keep the citation in the given format.
The outcome of your statistical test should refer to the hypothesis being tested.
If you have spent lots of time researching your project, you can take the help of statistics project writing services. For this, you can approach statistics homework help experts, and they will offer you the best statistics projects on your researched idea.
Don’t get anxious while doing your statistics projects. Because most of the time, the professors give the research questions to the students. And the students need to collect, analyze, and interpret the information to provide the most suitable answer or conclusion to the question using statistical methods and techniques.

There are plenty of tons or even thousands of statistics project ideas to work on. But in this blog, I have mentioned some of the best and more realistic statistics project ideas. If you work on any of these ideas, you will not just get good grades but will also enjoy your project while working on it. As the quote said, “Do what you love, love what you do.”

Also, follow the steps mentioned at the end of the blog to finish up with the best-in-class statistics project. We have covered these ideas for almost every student. But still, if you are not able to find the best project for you, you should get in touch with our experts. Our team of experts will instantly get in touch with you and help you find the most suitable statistics project ideas for you.

Q1. What is meant by statistical project?

Statistics projects are a paper used to present the comprehension analysis of gathering statistical data. It contains the statistical data for the collected statistical data. In other words, it brings the significant results of a specific research question.

Q2. What are some practical uses for statistics in everyday life?

Many people use statistics to make decisions in budgeting and financial planning. On the other hand, most banks use statistics to lower the risk of lending operations, predict the impact of economic crises, and analyze activity in the financial market.

How to Find the Best Online Statistics Homework Help

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The effect of using mind map-based handouts on light material using inquiry learning model on physics learning outcomes of junior high school students

Fitriana, Sheila

This study aims to see how mind map-based handouts with inquiry learning models affect junior high school students' physics learning outcomes. The research method used was quasi-experimental with the randomized control Group Only Design. Sampling used a purposive sampling technique with one sample as the experimental class and one as the control class. The data in the study are the results of learning cognitive, affective, and psychomotor aspects. The research instrument was an objective test for cognitive aspects of learning outcomes and observation sheets for affective and psychomotor aspects of learning outcomes. The result of the study showed that the student's average learning outcomes in all three aspects of the experimental class were higher than in the control class. After testing the hypothesis, the tcount on the cognitive aspect is 2.88, the tcount on the affective aspect is 2.52, the tcount on the psychomotor aspect is 2.19, the ttable with dk 58 is 1.68 and the tcount > ttable. Therefore, the hypothesis states that the learning outcomes of the experimental class using mind map-based handouts with the inquiry learning model are more significant than the control class and can be accepted at the 0.05 significance level.

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13 Different Types of Hypothesis (2024)
What is an Hypothesis
Difference Between Making a Hypothesis and Prediction
Research Hypothesis: Definition, Types, Examples and Quick Tips
Hypothesis Examples
If Then Hypothesis Examples

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Two types of Hypothesis

COMMENTS

How to Write a Hypothesis [31 Tips + Examples]
Avoid jargon and overly complex terms that could confuse readers. Make the hypothesis comprehensible to non-experts in the field. Examples: "Organic fertilizer will reduce plant growth.". "High schoolers will feel less anxious after a social media detox.". "Targeted ads will increase customer engagement.".
How to Write a Strong Hypothesis
Developing a hypothesis (with example) 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. Example: Research question.
Hypothesis Examples
The answer is because it's easier applying a statistical test that shows, with a high level of confidence, a null hypothesis is correct or incorrect. Research Hypothesis Examples. A research hypothesis (H 1) is a type of hypothesis used to design an experiment. This type of hypothesis is often written as an if-then statement because it's ...
What Is a Hypothesis and How Do I Write One?
Hypothesis Testing Examples. We know it can be hard to write a good hypothesis unless you've seen some good hypothesis examples. We've included four hypothesis examples based on some made-up experiments. Use these as templates or launch pads for coming up with your own hypotheses. Experiment #1: Students Studying Outside (Writing a Hypothesis)
What Are Examples of a Hypothesis?
Here are examples of a scientific hypothesis and how to improve a hypothesis to use it for an experiment. ... She has taught science courses at the high school, college, and graduate levels. Learn about our Editorial Process. Updated on February 03, 2020. A hypothesis is an explanation for a set of observations. Here are examples of a ...
How to Write a Hypothesis w/ Strong Examples
Simple Hypothesis Examples. Increasing the amount of natural light in a classroom will improve students' test scores. Drinking at least eight glasses of water a day reduces the frequency of headaches in adults. Plant growth is faster when the plant is exposed to music for at least one hour per day.
100 Hypothesis Examples Across Various Academic Fields
100 Hypothesis Examples Across Various Academic Fields. A hypothesis is a statement or proposition that is made for the purpose of testing through empirical research. It represents an educated guess or prediction that can be tested through observation and experimentation. A hypothesis is often formulated using a logical construct of "if-then ...
Hypothesis: Definition, Examples, and Types
A hypothesis is a tentative statement about the relationship between two or more variables. It is a specific, testable prediction about what you expect to happen in a study. It is a preliminary answer to your question that helps guide the research process. Consider a study designed to examine the relationship between sleep deprivation and test ...
Writing a Hypothesis for Your Science Fair Project
A hypothesis is a tentative, testable answer to a scientific question. Once a scientist has a scientific question she is interested in, the scientist reads up to find out what is already known on the topic. Then she uses that information to form a tentative answer to her scientific question. Sometimes people refer to the tentative answer as "an ...
15 Hypothesis Examples (2024)
15 Hypothesis Examples. A hypothesis is defined as a testable prediction, and is used primarily in scientific experiments as a potential or predicted outcome that scientists attempt to prove or disprove (Atkinson et al., 2021; Tan, 2022). In my types of hypothesis article, I outlined 13 different hypotheses, including the directional hypothesis ...
Scientific Hypothesis Examples
Scientific Hypothesis Examples . Hypothesis: All forks have three tines. This would be disproven if you find any fork with a different number of tines. Hypothesis: There is no relationship between smoking and lung cancer.While it is difficult to establish cause and effect in health issues, you can apply statistics to data to discredit or support this hypothesis.
Hypothesis
A hypothesis is often called an "educated guess," but this is an oversimplification. An example of a hypothesis would be: "If snake species A and B compete for the same resources, and if we ...
Forming a Hypothesis Activities for High School
Break your students into small groups and explain that they have half an hour to focus on developing a hypothesis. Every group member should participate in developing a hypothesis that is rational ...
Hypothesis Examples
Examples of Hypothesis: 1. If I replace the battery in my car, then my car will get better gas mileage. 2. If I eat more vegetables, then I will lose weight faster. 3. If I add fertilizer to my garden, then my plants will grow faster. 4. If I brush my teeth every day, then I will not develop cavities.
High School Science Experiment Ideas
Here are some ideas for science experiments targeted at the high school educational level, plus examples of hypotheses to test. ... Sample Hypothesis: The number of students will not affect student conformity. Age does not affect student conformity. Gender has no effect on student conformity.
How to Write a Hypothesis: Lesson for Kids
Follow this easy formula to write a strong hypothesis: If (I do this), then (this will happen). We call this an if - then statement. Here are some examples of an if - then statement: If I use ...
Hypothesis Examples: Different Types in Science and Research
To form a solid theory, the vital first step is creating a hypothesis. See the various types of hypotheses and how they can lead you on the path to discovery.
Null & Alternative Hypotheses
The alternative hypothesis (H a) is the other answer to your research question. It claims that there's an effect in the population. Often, your alternative hypothesis is the same as your research hypothesis. In other words, it's the claim that you expect or hope will be true. The alternative hypothesis is the complement to the null hypothesis.
High School Science Projects
High School Science Projects. (644 results) Science Buddies' high school science projects are the perfect way for high school students to have fun exploring science, technology, engineering, and math (STEM). Our high school projects are written and tested by scientists and are specifically created for use by students in the high school grades.
High School Science Fair Projects
High school science fair projects require a high level of original thought and development. Consider these ideas as springboards to help develop your own original project. To participate in an upper-level competition, your project should be relevant to current science and technology. ... For a sample procedure and more project ideas, see our ...
70 Best High School Science Fair Projects in Every Subject
Remove the air in a DIY vacuum chamber. Instructables. Difficulty: Medium / Materials: Medium. You can use a vacuum chamber to do lots of cool high school science fair projects, but a ready-made one can be expensive. Try this project to make your own with basic supplies. Learn more: Vacuum Chamber at Instructables.
75+ Realistic Statistics Project Ideas To Score A+
Statistics Project Ideas for High School. Let's find out the best statistics project ideas for high school that will help you to score good grades and showcase your skills:-. Evaluate the published reports and graphs based on the analyzed data and conclude. Use dice to evaluate the bias and effect of completing data.
The effect of using mind map-based handouts on light ...
This study aims to see how mind map-based handouts with inquiry learning models affect junior high school students' physics learning outcomes. The research method used was quasi-experimental with the randomized control Group Only Design. Sampling used a purposive sampling technique with one sample as the experimental class and one as the control class. The data in the study are the results of ...

How to Write a Hypothesis [31 Tips + Examples]

Writing a Hypothesis: The Basics

31 Tips for Writing a Hypothesis

Tip 1: Start with a Clear Research Question

Tip 2: Do Background Research

Tip 3: Identify Independent and Dependent Variables

Tip 4: Make Your Hypothesis Testable

Tip 5: Be Specific and Concise

Tip 6: Choose Simple Language

Tip 7: Formulate a Null Hypothesis

Tip 8: State Alternative Hypotheses

Tip 9: Use “If…Then” Statements

Tip 10: Avoid Assumptions

Tip 11: Review Existing Literature

Tip 12: Consider Multiple Variables

Tip 13: Review Ethical Considerations

Tip 14: Test with Pilot Studies

Tip 15: Build Hypotheses on Existing Theories

Tip 16: Address Real-World Problems

Tip 17: Aim for Clear, Measurable Outcomes

Tip 18: Stay Open to Unexpected Results

Tip 19: Keep Hypotheses Relevant

Tip 20: Collaborate with Peers

Tip 21: Re-evaluate Hypotheses Periodically

Tip 22: Develop Compelling Visuals

Tip 23: Refine Your Data Collection Plan

Tip 24: Focus on Logical Progression

Tip 25: Test Against Diverse Samples

Tip 26: Use Control Groups

Tip 27: Consider Practical Constraints

Tip 28: Recognize Bias Risks

Tip 29: Prepare for Peer Review

Tip 30: Create a Research Proposal

Tip 31: Document Your Findings

Hypothesis Examples for Different Situations

Professional Contacts

Super Personal

Final Thoughts: How to Write a Hypothesis

Hypothesis Examples

Null Hypothesis Examples

Research Hypothesis Examples

Is It Okay to Disprove a Hypothesis?

Related Posts

Choose Your Test

What Is a Hypothesis?

Independent and Dependent Variables

Elements of a Good Hypothesis

Writing Your Hypothesis

The Two Types of Hypotheses

#1: If-Then Hypotheses

#2: Null Hypotheses

4 Tips to Write the Best Hypothesis

#1: Plausibility

#2: Defined Concepts

#3: Observability

#4: Generalizability

Hypothesis Testing Examples

Experiment #1: Students Studying Outside (Writing a Hypothesis)

Experiment #2: The Cupcake Store (Forming a Simple Experiment)

Experiment #3: Backyard Bird Feeders (Integrating Multiple Variables and Rejecting the If-Then Hypothesis)

Experiment #4: In-Class Survey (Including an Alternative Hypothesis)

Key Takeaways: Hypothesis Writing

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100 Hypothesis Examples Across Various Academic Fields

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The Hypothesis in the Scientific Method