Is AQA A-Level Physics 2026 Predicted Practice Paper — Paper 2 an official exam paper?

No. It is an original StudyVector predicted-practice paper for revision. It is not official, leaked or guaranteed, and students should still revise the full specification.

How many marks and questions are in this predicted paper?

This paper has 85 marks across 12 questions and is designed for a 120-minute practice session.

What are the A-Level Physics Paper 2 predictions for 2026?

StudyVector's 2026 A-Level Physics Paper 2 predicted paper focuses on thermal physics, fields, nuclear physics, capacitance, synoptic data. This is an independent, AQA-style predicted-practice paper modelled on the published specification — it is not a leaked paper and is not official.

What is the A-Level Physics Paper 2 format (7408/2)?

A-Level Physics Paper 2 (7408/2) is 85 marks over 120 minutes. 7408/2 model: 85 marks, 120 minutes.

Published 8 March 2026Updated 22 April 2026By Lizzie D., founderPrivacy Policy

Source note: use official specifications as the source of truth. StudyVector is an independent revision platform. AQA, Pearson Edexcel and OCR

Direct answer

This page hosts StudyVector’s independent 2026 A-Level Physics Paper 2 predicted-practice paper modelled on 7408/2,85 marks over 120 minutes. Predicted focus topics: thermal physics, fields, nuclear physics, capacitance, synoptic data. It is not an official paper, not a leaked paper and not a guarantee — students should still revise the full specification and verify against official past papers from AQA.

Qualification: A-Level Physics
Exam board model: AQA
Paper code: 7408/2
Total marks: 85 marks
Time allowed: 120 minutes
Last reviewed: 16 May 2026

StudyVector is independent revision support, not affiliated with AQA, Edexcel, OCR, JCQ or any exam provider. Always verify topic coverage with your exam-board specification.

Predicted paper

AQA A-Level Physics 2026 Predicted Practice Paper — Paper 2

Q: Which topics are likely to come up in A-Level Physics Paper 2 2026?

Based on the AQA-style structure and recent paper patterns, StudyVector's prediction prioritises: thermal physics; fields; nuclear physics; capacitance; synoptic data. Students should still revise the full specification because exam boards rotate topics.

A-Level Physics · AQA-style · 120 minutes · 85 marks

Modelled component: 7408/2 · Calculator permitted

7408/2 model: 85 marks, 120 minutes.

Prediction type: predicted_paper · Evidence mode: historical · Full-length original StudyVector predicted-practice paper modelled on public exam-board structure. It is not official, leaked or guaranteed.

Evidence basis: public exam-board specification structure, historical topic weighting patterns, StudyVector practice-quality review.

AI-generated practice paper. Not an official AQA-style paper, not leaked exam content, and not an exam-board endorsement.

Predicted difficulty score (practice signal)

0–100 model (higher = more demanding)

Candidate focus topics (not guarantees)

thermal physics
fields
nuclear physics
capacitance
synoptic data

Preview mode

0/12 questions attempted · score 0/85 (0%)

120:00Warm up with cards Play Daily

Answer ALL questions. Write your answers in the spaces provided. You must write down all the stages in your working.

Section A

Short-answer and structured questions. Answer ALL questions.

Question SECTION-A1 (3 marks)
A-Level A-Level Physics Thermal Physics question. A student investigates thermal physics using a measured input value of 10 and a measured output value of 4. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-A1 is 3 marks)
Question SECTION-A2 (4 marks)
A-Level A-Level Physics Gravitational Fields question. A student investigates gravitational fields using a measured input value of 12 and a measured output value of 5. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-A2 is 4 marks)
Question SECTION-A3 (5 marks)
A-Level A-Level Physics Electric Fields question. A student investigates electric fields using a measured input value of 14 and a measured output value of 6. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-A3 is 5 marks)
Question SECTION-A4 (5 marks)
A-Level A-Level Physics Capacitance question. A student investigates capacitance using a measured input value of 16 and a measured output value of 7. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-A4 is 5 marks)
Question SECTION-A5 (6 marks)
A-Level A-Level Physics Magnetic Fields question. A student investigates magnetic fields using a measured input value of 18 and a measured output value of 8. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-A5 is 6 marks)
Question SECTION-A6 (7 marks)
A-Level A-Level Physics Nuclear Physics question. A student investigates nuclear physics using a measured input value of 20 and a measured output value of 9. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-A6 is 7 marks)
Question SECTION-A7 (8 marks)
A-Level A-Level Physics Practical Skills question. A student investigates practical skills using a measured input value of 22 and a measured output value of 10. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-A7 is 8 marks)
Question SECTION-A8 (9 marks)
A-Level A-Level Physics Thermal Physics question. A student investigates thermal physics using a measured input value of 24 and a measured output value of 11. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-A8 is 9 marks)
Question SECTION-A9 (10 marks)
A-Level A-Level Physics Gravitational Fields question. A student investigates gravitational fields using a measured input value of 26 and a measured output value of 12. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-A9 is 10 marks)

Section B

Extended response and synoptic questions. Answer ALL questions.

Question SECTION-B1 (8 marks)
A-Level A-Level Physics Electric Fields question. A student investigates electric fields using a measured input value of 28 and a measured output value of 13. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-B1 is 8 marks)
Question SECTION-B2 (10 marks)
A-Level A-Level Physics Capacitance question. A student investigates capacitance using a measured input value of 30 and a measured output value of 14. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-B2 is 10 marks)
Question SECTION-B3 (10 marks)
A-Level A-Level Physics Magnetic Fields question. A student investigates magnetic fields using a measured input value of 32 and a measured output value of 15. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.
(Total for Question SECTION-B3 is 10 marks)

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Direct answer

Qualification

A-Level Physics

Exam board model

AQA

Paper code

7408/2

Total marks

85 marks

Time allowed

120 minutes

Last reviewed

16 May 2026

StudyVector is independent revision support, not affiliated with AQA, Edexcel, OCR, JCQ or any exam provider. Always verify topic coverage with your exam-board specification.

AQA A-Level Physics 2026 Predicted Practice Paper — Paper 2

A-Level Physics · AQA-style · 120 minutes · 85 marks

Modelled component: 7408/2 · Calculator permitted

7408/2 model: 85 marks, 120 minutes.

Evidence basis: public exam-board specification structure, historical topic weighting patterns, StudyVector practice-quality review.

Section A

Short-answer and structured questions. Answer ALL questions.

Question SECTION-A1 (3 marks)

A-Level A-Level Physics Thermal Physics question. A student investigates thermal physics using a measured input value of 10 and a measured output value of 4. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-A1 is 3 marks)

Question SECTION-A2 (4 marks)

A-Level A-Level Physics Gravitational Fields question. A student investigates gravitational fields using a measured input value of 12 and a measured output value of 5. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-A2 is 4 marks)

Question SECTION-A3 (5 marks)

A-Level A-Level Physics Electric Fields question. A student investigates electric fields using a measured input value of 14 and a measured output value of 6. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-A3 is 5 marks)

Question SECTION-A4 (5 marks)

A-Level A-Level Physics Capacitance question. A student investigates capacitance using a measured input value of 16 and a measured output value of 7. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-A4 is 5 marks)

Question SECTION-A5 (6 marks)

A-Level A-Level Physics Magnetic Fields question. A student investigates magnetic fields using a measured input value of 18 and a measured output value of 8. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-A5 is 6 marks)

Question SECTION-A6 (7 marks)

A-Level A-Level Physics Nuclear Physics question. A student investigates nuclear physics using a measured input value of 20 and a measured output value of 9. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-A6 is 7 marks)

Question SECTION-A7 (8 marks)

A-Level A-Level Physics Practical Skills question. A student investigates practical skills using a measured input value of 22 and a measured output value of 10. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-A7 is 8 marks)

Question SECTION-A8 (9 marks)

A-Level A-Level Physics Thermal Physics question. A student investigates thermal physics using a measured input value of 24 and a measured output value of 11. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-A8 is 9 marks)

Question SECTION-A9 (10 marks)

A-Level A-Level Physics Gravitational Fields question. A student investigates gravitational fields using a measured input value of 26 and a measured output value of 12. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-A9 is 10 marks)

Section B

Extended response and synoptic questions. Answer ALL questions.

Question SECTION-B1 (8 marks)

A-Level A-Level Physics Electric Fields question. A student investigates electric fields using a measured input value of 28 and a measured output value of 13. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-B1 is 8 marks)

Question SECTION-B2 (10 marks)

A-Level A-Level Physics Capacitance question. A student investigates capacitance using a measured input value of 30 and a measured output value of 14. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-B2 is 10 marks)

Question SECTION-B3 (10 marks)

A-Level A-Level Physics Magnetic Fields question. A student investigates magnetic fields using a measured input value of 32 and a measured output value of 15. Describe the physics involved, complete any appropriate calculation, and explain how the reliability of the result could be improved.

(Total for Question SECTION-B3 is 10 marks)