What is an example of a hypothesis?
If you are studying the relationship between physical exercise and mental health, a suitable hypothesis could be: “Regular physical exercise leads to improved mental well-being among adults.”
This statement constitutes a specific and testable hypothesis that directly relates to the variables you are investigating.
What makes a good hypothesis?
A good hypothesis possesses several key characteristics. Firstly, it must be testable, allowing you to analyze data through empirical means, such as observation or experimentation, to assess if there is significant support for the hypothesis. Secondly, a hypothesis should be specific and unambiguous, giving a clear understanding of the expected relationship between variables. Lastly, it should be grounded in existing research or theoretical frameworks, ensuring its relevance and applicability.
Different types of hypotheses
Understanding the types of hypotheses can greatly enhance how you construct and work with hypotheses. While all hypotheses serve the essential function of guiding your study, there are varying purposes among the types of hypotheses. In addition, all hypotheses stand in contrast to the null hypothesis, or the assumption that there is no significant relationship between the variables.
Here, we explore various kinds of hypotheses to provide you with the tools needed to craft effective hypotheses for your specific research needs. Bear in mind that many of these hypothesis types may overlap with one another, and the specific type that is typically used will likely depend on the area of research and methodology you are following.
Null hypothesis
The null hypothesis is a statement that there is no effect or relationship between the variables being studied. In statistical terms, it serves as the default assumption that any observed differences are due to random chance.
For example, if you’re studying the effect of a drug on blood pressure, the null hypothesis might state that the drug has no effect.
Alternative hypothesis
Contrary to the null hypothesis, the alternative hypothesis suggests that there is a significant relationship or effect between variables.
Using the drug example, the alternative hypothesis would posit that the drug does indeed affect blood pressure. This is what researchers aim to prove.
Simple hypothesis
A simple hypothesis makes a prediction about the relationship between two variables, and only two variables.
For example, “Increased study time results in better exam scores.” Here, “study time” and “exam scores” are the only variables involved.
Complex hypothesis
A complex hypothesis, as the name suggests, involves more than two variables. For instance, “Increased study time and access to resources result in better exam scores.” Here, “study time,” “access to resources,” and “exam scores” are all variables.
This hypothesis refers to multiple potential mediating variables. Other hypotheses could also include predictions about variables that moderate the relationship between the independent variable and dependent variable.
Directional hypothesis
A directional hypothesis specifies the direction of the expected relationship between variables. For example, “Eating more fruits and vegetables leads to a decrease in heart disease.”
Here, the direction of heart disease is explicitly predicted to decrease, due to effects from eating more fruits and vegetables. All hypotheses typically specify the expected direction of the relationship between the independent and dependent variable, such that researchers can test if this prediction holds in their data analysis.
Statistical hypothesis
A statistical hypothesis is one that is testable through statistical methods, providing a numerical value that can be analyzed. This is commonly seen in quantitative research.
For example, “There is a statistically significant difference in test scores between students who study for one hour and those who study for two.”
Empirical hypothesis
An empirical hypothesis is derived from observations and is tested through empirical methods, often through experimentation or survey data. Empirical hypotheses may also be assessed with statistical analyses.
For example, “Regular exercise is correlated with a lower incidence of depression,” could be tested through surveys that measure exercise frequency and depression levels.
Causal hypothesis
A causal hypothesis proposes that one variable causes a change in another. This type of hypothesis is often tested through controlled experiments.
For example, “Smoking causes lung cancer,” assumes a direct causal relationship.
Associative hypothesis
Unlike causal hypotheses, associative hypotheses suggest a relationship between variables but do not imply causation.
For instance, “People who smoke are more likely to get lung cancer,” notes an association but doesn’t claim that smoking causes lung cancer directly.
Relational hypothesis
A relational hypothesis explores the relationship between two or more variables but doesn’t specify the nature of the relationship.
For example, “There is a relationship between diet and heart health,” leaves the nature of the relationship (causal, associative, etc.) open to interpretation.
Logical hypothesis
A logical hypothesis is based on sound reasoning and logical principles. It’s often used in theoretical research to explore abstract concepts, rather than being based on empirical data.
For example, “If all men are mortal and Socrates is a man, then Socrates is mortal,” employs logical reasoning to make its point.
