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Understanding Experimental Design: Key Concepts and Types - Blockchain.News

Understanding Experimental Design: Key Concepts and Types

Luisa Crawford Jun 10, 2024 08:32

Discover the essentials of experimental design, including key concepts and types.

Understanding Experimental Design: Key Concepts and Types

Experimental design is a crucial aspect of scientific research, providing a systematic plan to test hypotheses and answer research questions. According to Quillbot Blog, it involves manipulating one or more independent variables (IVs) and measuring their effect on dependent variables (DVs) while controlling for other potential influences.

What is Experimental Design?

Experimental designs are used to investigate causal relationships by manipulating IVs and observing their impact on DVs. This structured approach is essential for isolating the effect of the IV on the DV while controlling for other variables that might influence the outcome.

Researchers follow five main steps when designing an experiment:

  1. Define the research question and variables
  2. Formulate a specific, testable hypothesis
  3. Develop experimental treatments
  4. Divide subjects into treatment and control groups
  5. Decide how to measure the dependent variable

Step-by-Step Guide to Experimental Design

Step 1: Define Your Research Question and Variables

The first step involves formulating the research question and identifying the IVs and DVs. For example, if studying influences test scores, the IV could be the number of hours spent studying, and the DV could be the test score.

Step 2: Formulate a Specific, Testable Hypothesis

Researchers write a null hypothesis (H0) predicting no relationship between the IV and DV and an alternate hypothesis (H1) predicting a relationship. For instance, H0 could state that studying hours do not correlate with test scores, while H1 might suggest that increased study hours lead to higher test scores.

Step 3: Develop Experimental Treatments

The manipulation of IVs affects the external validity of results. Researchers decide how widely and finely to vary the IVs. For instance, studying could be varied as a categorical variable (no studying, a little, a lot) or a continuous variable (number of hours studied).

Step 4: Divide Subjects Between Treatment and Control Groups

Researchers must consider the sample size, which impacts the experiment's statistical power. Experiments typically include at least one experimental group and one control group. Participants are assigned using either a completely randomized design or a randomized block design.

Step 5: Decide How to Measure Your Dependent Variable

Choosing reliable and valid measurement methods is crucial. Some variables can be measured with scientific equipment, while others need to be operationalized (e.g., using questionnaires to measure anxiety).

Types of Experimental Design

There are three main types of experimental designs:

Between-Subjects Design

In a between-subjects design, each participant is exposed to only one level of the IV. This design is common in surveys and observational studies.

Within-Subjects Design

In a within-subjects design, participants are exposed to multiple levels of the IV. This design is often used in laboratory studies.

Mixed-Subjects Design

A mixed-subjects design combines between-subjects and within-subjects designs, where participants are tested under different conditions at multiple points in time.

Other distinctions include factorial design, randomized controlled trials (RCTs), and crossover design.

Factorial Design

In a factorial design, two or more IVs are manipulated simultaneously to investigate their interaction.

Randomized Controlled Trial (RCT)

An RCT involves randomly assigning participants to treatment or control groups, commonly used in medical and social science research.

Crossover Design

In a crossover design, participants receive different levels of the IV at different times, often used in clinical trials.

Image source: Shutterstock