Work Done & Springs — GCSE Physics Revision

Revise Work Done & Springs for GCSE Physics. Step-by-step explanation, worked examples, common mistakes and exam-style practice aligned to AQA, Edexcel, OCR, WJEC, Eduqas, CCEA, Cambridge International (CIE), SQA, IB, AP.

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What is Work Done & Springs?

When you stretch or compress a spring, you are doing work against the elastic forces and storing elastic potential energy in it. The work done in stretching a spring is equal to the area under the force-extension graph. For a spring that obeys Hooke's Law, this energy can be calculated using the formula Ee = ½ke², where k is the spring constant and e is the extension.

Board notes: A Higher Tier topic for all major GCSE Physics boards (AQA, Edexcel, OCR).

Step-by-step explanation

Worked example

A spring with a spring constant of 50 N/m is stretched by 20 cm. How much elastic potential energy is stored? Solution: First, convert extension to metres: 20 cm = 0.2 m. Then, use the formula Ee = ½ke². Ee = 0.5 x 50 N/m x (0.2 m)² = 0.5 x 50 x 0.04 = 1 J.

Mini lesson for Work Done & Springs

1. Understand the core idea

Can you explain Work Done & Springs without copying the notes?

2. Turn it into marks

A spring with a spring constant of 50 N/m is stretched by 20 cm. How much elastic potential energy is stored?

Underline the method, evidence, or command-word move that would earn credit in GCSE Forces.

3. Fix the likely mark leak

Watch for this mistake: Using the formula F=ke to calculate the work done. This formula gives the force, not the energy stored.

Write one correction rule before doing another practice question.

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Start practice — Work Done & Springs Topic question sets

Work Done & Springs practice questions

These are original StudyVector questions for revision practice. They are not official exam-board questions.

Question 1

In one GCSE sentence, explain what Work Done & Springs is testing.

Answer: When you stretch or compress a spring, you are doing work against the elastic forces and storing elastic potential energy in it. The work done in stretching a spring is equal to the area under the force-extension graph.

Mark focus: Precise definition and topic focus.

Question 2

A Work Done & Springs question uses an unfamiliar context. What should the answer do before adding detail?

Answer: It should name the process, variable, equation, particle model, or evidence being tested, then explain the result using precise scientific vocabulary.

Mark focus: Method selection and command-word control.

Question 3

A student makes this mistake: "Using the formula F=ke to calculate the work done. This formula gives the force, not the energy stored." What should their next repair task be?

Answer: Do one Work Done & Springs question and review the mistake type.

Mark focus: Error correction and next-step practice.

Work Done & Springs flashcards

Core idea

What is the main idea in Work Done & Springs?

Common mistake

What mistake should you avoid in Work Done & Springs?

Using the formula F=ke to calculate the work done. This formula gives the force, not the energy stored.

Practice

What is one useful practice task for Work Done & Springs?

Answer one Work Done & Springs question and review the mistake type.

Exam board

How should you use board notes for Work Done & Springs?

A Higher Tier topic for all major GCSE Physics boards (AQA, Edexcel, OCR).

Common mistakes

1Using the formula F=ke to calculate the work done. This formula gives the force, not the energy stored.
2Forgetting to use the average force when calculating work done (Work = average force x distance). For a spring, the average force is ½Fe.
3Forgetting to square the extension in the energy formula (Ee = ½ke²).

Work Done & Springs exam questions

Exam-style questions for Work Done & Springs with mark-scheme style solutions and timing practice. Aligned to AQA, Edexcel, OCR, WJEC, Eduqas, CCEA, Cambridge International (CIE), SQA, IB, AP specifications.

Work Done & Springs exam questions

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Practice QuestionQ1

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Step-by-step method

Step-by-step explanation

4 steps · Worked method for Work Done & Springs

Core concept

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Frequently asked questions

What is elastic potential energy?
Elastic potential energy is the energy stored in an elastic object when it is stretched or compressed. This energy is released when the object returns to its original shape.
How is work done related to elastic potential energy?
The work done to stretch or compress a spring is stored as elastic potential energy in the spring, assuming the elastic limit is not exceeded.

What is Work Done & Springs?

Board notes: A Higher Tier topic for all major GCSE Physics boards (AQA, Edexcel, OCR).

Step-by-step explanation

Mini lesson for Work Done & Springs

1. Understand the core idea

Can you explain Work Done & Springs without copying the notes?

2. Turn it into marks

A spring with a spring constant of 50 N/m is stretched by 20 cm. How much elastic potential energy is stored?

Underline the method, evidence, or command-word move that would earn credit in GCSE Forces.

3. Fix the likely mark leak

Watch for this mistake: Using the formula F=ke to calculate the work done. This formula gives the force, not the energy stored.

Write one correction rule before doing another practice question.

Work Done & Springs practice questions

These are original StudyVector questions for revision practice. They are not official exam-board questions.

Question 1

In one GCSE sentence, explain what Work Done & Springs is testing.

Mark focus: Precise definition and topic focus.

Question 2

A Work Done & Springs question uses an unfamiliar context. What should the answer do before adding detail?

Answer: It should name the process, variable, equation, particle model, or evidence being tested, then explain the result using precise scientific vocabulary.

Mark focus: Method selection and command-word control.

Question 3

A student makes this mistake: "Using the formula F=ke to calculate the work done. This formula gives the force, not the energy stored." What should their next repair task be?

Answer: Do one Work Done & Springs question and review the mistake type.

Mark focus: Error correction and next-step practice.

Work Done & Springs flashcards

Core idea

What is the main idea in Work Done & Springs?

Common mistake

What mistake should you avoid in Work Done & Springs?

Using the formula F=ke to calculate the work done. This formula gives the force, not the energy stored.

Practice

What is one useful practice task for Work Done & Springs?

Answer one Work Done & Springs question and review the mistake type.

Exam board

How should you use board notes for Work Done & Springs?

A Higher Tier topic for all major GCSE Physics boards (AQA, Edexcel, OCR).

Common mistakes

1Using the formula F=ke to calculate the work done. This formula gives the force, not the energy stored.

2Forgetting to use the average force when calculating work done (Work = average force x distance). For a spring, the average force is ½Fe.

3Forgetting to square the extension in the energy formula (Ee = ½ke²).

Try a practice question

Practice QuestionQ1

2 marks

Unlock Work Done & Springs practice questions

Get instant feedback, step-by-step help and exam-style practice — free, no card needed.

Start Free — No Card Needed

Already have an account? Log in

Step-by-step method

Step-by-step explanation

4 steps · Worked method for Work Done & Springs

Core concept

3 more steps below

3 steps locked

Unlock all steps — Free

Frequently asked questions

What is elastic potential energy?

Elastic potential energy is the energy stored in an elastic object when it is stretched or compressed. This energy is released when the object returns to its original shape.

How is work done related to elastic potential energy?

The work done to stretch or compress a spring is stored as elastic potential energy in the spring, assuming the elastic limit is not exceeded.