Measuring speed

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👩 Teacher’s Guide

🎯 Objective

Students will be able to:

• Plan a method to measure speed using distance and time
• Identify key sources of error and reduce them
• Use repeats and averages to improve reliability

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📝 Teaching Notes

• Key idea to emphasize: Measurement quality depends on method, tools, and repeats.
• Common misconception: One timing is enough / reaction time doesn’t matter.
• Suggested teaching approach:
• Compare stopwatch timing vs light gates.
• Use repeats and average; discuss anomalies.
• Keep distance long enough to reduce reaction-time fraction.

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💬 Discussion Starter

Ask students:

• How can two journeys have the same average speed but different motion?
• Why do units matter as much as the numbers?
• How can graphs tell a story about motion?

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🧒 Student Worksheet

Concept and Helping Material

Speed can be measured by timing a known distance, using light gates, motion sensors, or video analysis. Good technique reduces reaction-time and parallax errors.

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Vocabulary and Definitions

• — A sensor that measures time when a beam is interrupted.
• — Delay between seeing an event and responding.
• — Doing measurements multiple times.
• — Average value of repeated measurements.
• — An error that shifts results the same way each time.

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Hands-On Experiment or Activities

Activity 1: Stopwatch vs Light Gate

What You Need: ramp, toy car, stopwatch, light gate (or phone timer).

What You Do: Measure the car’s speed with a stopwatch, then with a light gate; compare results.

Think and Talk: What changed? What stayed the same?

Activity 2: Video Analysis

What You Need: phone video, metre ruler, free video player with frame stepping.

What You Do: Record an object moving past a ruler; count frames to find time and calculate speed.

Think and Talk: What changed? What stayed the same?

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Practice Questions (QA)

1. How can you measure speed in the lab?

2. Why are light gates more accurate than stopwatches?

3. How do repeats improve reliability?

4. What is reaction time error?

5. How can you reduce reaction time error with a stopwatch?

6. Why mark a clear start and finish line?

7. What is one systematic error in measuring distance?

8. What is one random error in timing?

9. Why keep the ramp height the same in repeats?

10. What should you do with an anomalous time reading?

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Reflection

• Where do you see this idea in sports, travel, or everyday movement?
• What is one measurement or graph habit that would improve your answers?