🧪 Experimental and Quasi-Experimental Designs in TESOL: A Beginner’s Guide

By Dalat TESOL
Making research design more accessible for classroom-based and applied linguistics researchers

📌 Introduction

When teachers or graduate students want to test whether a particular teaching method works better than another, they often turn to experimental or quasi-experimental research designs. These designs help answer questions like:

“Does using peer feedback improve writing more than teacher feedback?”
“Will a 4-week vocabulary app intervention enhance EFL learners’ retention?”
“Does AI-assisted writing boost students’ self-efficacy compared to traditional drafting?”

This article introduces:

What experimental and quasi-experimental designs are
Key differences between the two
When to use them in TESOL
Core components (e.g., control groups, randomization, pre/post-tests)
Common designs (with diagrams)
Practical examples in TESOL contexts
Strengths and limitations

⚖️ 1. What Are Experimental Designs?

An experimental design is a type of quantitative research that manipulates one variable (called the independent variable) to see how it affects another (called the dependent variable), while controlling for other factors.

The hallmark of true experiments is random assignment — participants are randomly placed into groups, which helps rule out pre-existing differences.

🧪 2. What Are Quasi-Experimental Designs?

Quasi-experimental designs are similar to experimental ones, but they lack random assignment. This often happens in classroom-based research where random grouping is not possible.

Instead, researchers work with intact groups (e.g., two existing classes) and compare them before and after an intervention.

🧬 3. Key Terminology and Concepts

Term	Meaning	Example
Independent variable (IV)	The variable you manipulate	Type of feedback (peer vs. teacher)
Dependent variable (DV)	The outcome you measure	Writing accuracy score
Control group	Group that does not receive the treatment	Class with traditional feedback
Experimental group	Group that receives the new treatment	Class using peer feedback
Random assignment	Randomly placing participants in groups	Using a random number generator
Pre-test/Post-test	Test before and after the intervention	Writing test Week 1 and Week 5

🔄 4. Common Designs with Diagrams

A. True Experimental Design

Pre-test/Post-test Control Group

bashCopyEditGroup A (Experimental):  Pre-test → Treatment → Post-test  
Group B (Control):       Pre-test → No Treatment → Post-test

✅ Strong internal validity
❌ May not be feasible in real classrooms

B. Quasi-Experimental Design

Non-Randomized Pre-test/Post-test

bashCopyEditClass A (Experimental):  Pre-test → Treatment → Post-test  
Class B (Control):       Pre-test → No Treatment → Post-test

✅ More practical in educational settings
❌ Risk of selection bias

C. One-Group Pre-test/Post-test

bashCopyEditGroup A:  Pre-test → Treatment → Post-test

✅ Good for classroom action research
❌ No comparison group — limited conclusions

D. Post-test Only Control Group

yamlCopyEditGroup A:  Treatment → Post-test  
Group B:  No Treatment → Post-test

✅ Useful when pre-test may “prime” learning
❌ No baseline comparison

📚 5. Sample Research Topics in TESOL

Title	Design	RQ Example
The effect of vocabulary apps on word retention	Quasi-experimental (2 classes)	Do students using Quizlet outperform those with printed flashcards?
Peer feedback vs. teacher feedback in EFL writing	True experimental (random groups)	Which group improves more in writing coherence?
AI-assisted writing and learner confidence	One-group pre-post	Does using ChatGPT for planning increase students’ self-efficacy?

🧠 6. How to Choose a Design

Ask Yourself…	Suggests
Can I randomly assign students to groups?	True experiment
Am I working with existing classes?	Quasi-experiment
Is there a control group?	Stronger design
Can I only study one group?	Pre-post (with caution)

💡 In TESOL, quasi-experimental designs are most common due to classroom constraints.

⚙️ 7. Steps for Conducting a Study

Formulate a clear research question
e.g., Does peer feedback improve essay organization more than teacher feedback?
Identify your IV and DV
IV = Type of feedback; DV = Writing rubric score (organization)
Select participants and groups
Try to match groups in ability, age, class level
Design your instruments
Pre/post-tests, scoring rubrics, attitude scales
Conduct the intervention
e.g., 4 writing sessions with peer vs. teacher feedback
Analyze data
Paired/independent t-tests, ANOVA, or regression
Interpret results and write up
Link back to RQ, literature, and pedagogical implications

🔎 8. Common Statistical Tests Used

Test	When to Use
Paired-sample t-test	Compare pre and post in the same group
Independent-sample t-test	Compare 2 different groups (e.g., control vs. experimental)
ANOVA	Compare 3+ groups or more than one IV
ANCOVA	Control for differences in pre-test scores
Effect size (Cohen’s d)	Show how much change happened, not just if it was significant

📉 9. Limitations to Keep in Mind

Random assignment is often impractical in educational contexts
Pre-existing differences between groups can affect results
Hawthorne effect: students change behavior because they know they’re being studied
Post-test-only designs don’t measure learning gains
One-group designs cannot rule out external influences (e.g., curriculum, teacher)

📚 10. Further Reading

Mackey, A., & Gass, S. (2016). Second Language Research: Methodology and Design
Dornyei, Z. (2007). Research Methods in Applied Linguistics
Plonsky, L. (2015). Study quality in L2 research: A methodological synthesis and meta-analysis. Language Learning, 65(2), 295–348.
Shadish, Cook, & Campbell (2002). Experimental and Quasi-Experimental Designs for Generalized Causal Inference

🌿 Final Thoughts

Experimental and quasi-experimental designs are powerful tools for TESOL researchers and classroom practitioners who want to explore what works — and why.

Start with a clear RQ, be transparent about your design, and remember: even small-scale classroom experiments can lead to meaningful insights.