From Newton to NASCAR: The Science of Speed

Welcome car enthusiasts. 

Have you ever felt the push back into your seat as a car accelerates or the lurch forward when it suddenly brakes? These everyday sensations are governed by the fundamental principles of physics that you're learning about in class. From the friction of the tires on the road to the aerodynamic design that helps a car slice through the air, every aspect of a vehicle's performance is a real-world application of scientific laws. This WebQuest challenges you to become an automotive analyst, tasked with uncovering these powerful connections. You will investigate the physics behind vehicle motion, safety systems, and overall efficiency. By the end of your journey, you will see how every car on the road is a masterful demonstration of physics in action. 

Task: The Science of Speed

Welcome, Junior Physicists! A major car manufacturer has hired your team to create a simple guide for new drivers explaining the science behind how a car speeds up. They want their drivers to understand the powerful forces they are controlling. 

Your Task:

Your task is to investigate, explain, and present how and why cars speed up. You will explore the

scientific principles that make cars move (forces, friction, and energy), research factors that affect

speed, conduct a simple investigation or experiment, and present your findings in a poster or digital

presentation. Reflect on how speeding affects safety and the environment.

Step 1: Research

Define speed, velocity, and acceleration. Explain how a car engine changes fuel into motion and

describe the forces acting on a moving car. 

Step 2: Explore

Watch a short video or animation on how cars gain speed. Find out why car designers focus on

aerodynamics and how friction affects speed.

Step 3: Experiment (Hands-On)

Use a toy car, a ramp, and a stopwatch. Measure travel time, vary ramp height or surface, and

calculate average speed = distance ÷ time.

Step 4: Create

Summarize findings in a PowerPoint, Google Slides, or poster, including visuals and graphs.

Step 5: Reflect

Discuss: What forces affect car speed? Why control speed? How does science improve car safety?

evaluation 

reflection : insightful and real life correlation(4) 

                 clear understanding(3)

                 limited connection(2)

                 no reflection(1)

Conclusion 

Through this WebQuest, you explored the science behind speeding — including forces, motion, friction,

and aerodynamics. You learned that speeding is not just about the car’s engine, but also about physics

and responsible behavior. Understanding these principles helps engineers design safer cars and

drivers make safer choices.

Created by: Ms Anna, Grade 7 Science Teacher

Resources: BBC Bitesize Physics, NASA Kids Science, HowStuffWorks, National Geographic

Education

Target Group: Grade 7 learners (Ages 12–13)

Curriculum Links: Forces and Motion, Energy and Work, Scientific Inquiry, Application of Science in

Everyday Life

Learning Objectives:

1. Define and explain motion concepts (speed, velocity, acceleration).

2. Identify forces influencing a car’s movement.

3. Conduct a simple experiment to collect and analyze speed data.

4. Apply science to real-world safety issues.

5. Collaborate to create a scientific presentation.

Teacher Notes:

- Divide learners into groups of 3–4.

- Provide toy cars, ramps, rulers, and stopwatches.

- Supervise safely and encourage creativity.

- Allocate 2–3 lessons for research and one for presentations.

Assessment: Use the rubric provided and allow peer feedback. 

Extension Activities:

- Invite a local traffic officer or mechanic.

- Design a “safe car of the future.”

- Discuss how speed affects the environment.