Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 is designed for students preparing for the IGCSE Physics examination. It includes a variety of questions covering key physics concepts such as motion, forces, energy, and electricity. This specimen paper serves as a valuable resource for exam practice, helping students familiarize themselves with the format and types of questions they will encounter. Ideal for IGCSE candidates looking to enhance their understanding and performance in physics.

Key Points

  • Covers essential physics topics for IGCSE students, including motion and energy.
  • Includes a variety of question types to prepare for the IGCSE Physics exam.
  • Designed to help students practice and understand exam formats and expectations.
  • Provides insights into key physics concepts relevant to the curriculum.
Matthew Abel
16 pages
Language:English
Type:Past Paper
Matthew Abel
16 pages
Language:English
Type:Past Paper
73
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PHYSICS 0972/04
Paper 4 Theory (Extended) For examination from 2023
SPECIMEN PAPER 1 hour 15 minutes
You must answer on the question paper.
No additional materials are needed.
INSTRUCTIONS
● Answer all questions.
● Use a black or dark blue pen. You may use an HB pencil for any diagrams or graphs.
● Write your name, centre number and candidate number in the boxes at the top of the page.
● Write your answer to each question in the space provided.
● Do not use an erasable pen or correction fluid.
● Do not write on any bar codes.
● You may use a calculator.
● You should show all your working and use appropriate units.
● Taketheweightof1.0 kgtobe9.8 N(accelerationoffreefall=9.8 m / s
2
).
INFORMATION
● Thetotalmarkforthispaperis80.
● The number of marks for each question or part question is shown in brackets [ ].
*0123456789*
© UCLES 2020 [Turn over
This document has 16 pages. Any blank pages are indicated.
Cambridge IGCSE
(9–1)
2
0972/04/SP/23© UCLES 2020
1 Fig. 1.1 shows the speed-time graph for a vehicle accelerating from rest.
0
0
5
10
15
20
25
30
20 40 60 80
time
/
s
speed
m
/
s
100 120 140
160
Fig. 1.1
(a) Calculate the acceleration of the vehicle at time t = 30 s.
acceleration = .......................................................... [3]
(b) Without further calculation, state how the acceleration at time t = 100 s compares to the
acceleration at time t = 10 s.
Using ideas about forces, explain why any change in the acceleration has occurred.
...................................................................................................................................................
...................................................................................................................................................
.............................................................................................................................................. [2]
(c) Determine the distance travelled by the vehicle between time t = 120 s and time t = 160 s.
distance = .......................................................... [3]
[Total: 8]
3
0972/04/SP/23© UCLES 2020 [Turn over
2 (a) Complete the definitions by giving the name of each quantity.
mass × acceleration = ........................................................
force × time = ........................................................
[2]
(b) Fig. 2.2 shows a man using a golf club to hit a ball.
golf club
ball
Fig. 2.2
The ball has a mass of 0.046 kg. The golf club is in contact with the ball for a duration of
5.0 × 10
–4
 s and the ball leaves the golf club at a speed of 65 m / s.
(i) Calculate the momentum of the ball as it leaves the golf club.
momentum = .......................................................... [2]
(ii) Calculate the average resultant force acting on the ball while it is in contact with the golf
club.
average force = .......................................................... [2]
(iii) While the golf club is in contact with the ball, the ball becomes compressed and changes
shape.
State the type of energy stored in the ball during its contact with the golf club.
...................................................................................................................................... [1]
[Total: 7]
/ 16
End of Document
73

FAQs

what is Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 about

The Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 is designed to assess students' understanding of physics concepts and principles.

  • It includes various question types, including multiple-choice, structured, and extended response questions.
  • The paper covers topics such as mechanics, thermal physics, waves, electricity, and magnetism.
  • Students are expected to demonstrate both theoretical knowledge and practical application of physics principles.

how to prepare for Cambridge IGCSE Physics 0972/04 Specimen Paper 2023

Preparing for the Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 involves several effective strategies.

  • Review the syllabus to ensure all topics are covered.
  • Practice past papers to familiarize yourself with the question format and timing.
  • Focus on understanding key concepts and their applications in real-world scenarios.
  • Utilize revision guides and textbooks that align with the Cambridge curriculum.
  • Engage in group studies to discuss difficult topics and share insights.

what topics are covered in Cambridge IGCSE Physics 0972/04 Specimen Paper 2023

The Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 covers a range of essential physics topics.

  • Mechanics: motion, forces, and energy.
  • Thermal Physics: temperature, heat transfer, and thermal properties of matter.
  • Waves: properties of waves, sound, and light.
  • Electricity: circuits, current, voltage, and resistance.
  • Magnetism: magnetic fields and their applications.

what are the key formulas for Cambridge IGCSE Physics 0972/04 Specimen Paper 2023

Key formulas for the Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 are crucial for solving problems effectively.

  • Newton's Second Law: F = ma (Force = mass × acceleration)
  • Work Done: W = Fd (Work = force × distance)
  • Kinetic Energy: KE = 1/2 mv² (Kinetic Energy = 1/2 × mass × velocity squared)
  • Potential Energy: PE = mgh (Potential Energy = mass × gravitational field strength × height)
  • Ohm's Law: V = IR (Voltage = current × resistance)

what are some tips for answering Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 questions

Effective tips for answering questions on the Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 can enhance performance.

  • Read each question carefully to understand what is being asked.
  • Show all working steps in calculations to gain partial credit.
  • Use diagrams where applicable to illustrate concepts clearly.
  • Manage your time effectively, allocating appropriate time to each question.
  • Review your answers if time permits to catch any mistakes.

how is the Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 structured

The Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 is structured to evaluate different aspects of physics knowledge.

  • Section A typically consists of multiple-choice questions.
  • Section B contains structured questions that require detailed answers.
  • Section C may include extended response questions that assess deeper understanding.
  • Each section is designed to test both theoretical knowledge and practical skills.

what skills are assessed in Cambridge IGCSE Physics 0972/04 Specimen Paper 2023

The Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 assesses a variety of skills essential for physics.

  • Knowledge and understanding of physics concepts.
  • Application of knowledge to solve problems.
  • Analysis and evaluation of experimental data.
  • Practical skills through experimental design and execution.
  • Communication of scientific ideas clearly and effectively.

what are common mistakes in Cambridge IGCSE Physics 0972/04 Specimen Paper 2023

Common mistakes in the Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 can hinder performance.

  • Neglecting to read questions thoroughly, leading to misunderstanding.
  • Forgetting to include units in answers, which can result in lost marks.
  • Rushing through calculations without checking for accuracy.
  • Failing to label diagrams or graphs appropriately.
  • Overlooking significant figures in numerical answers.

how long is the Cambridge IGCSE Physics 0972/04 Specimen Paper 2023

The Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 is designed to be completed within a specific time frame.

  • The total duration for the exam is typically 1 hour and 15 minutes.
  • This includes time for reading instructions and answering all questions.
  • Effective time management is crucial to ensure all questions are attempted.

where can I find resources for Cambridge IGCSE Physics 0972/04 Specimen Paper 2023

Resources for the Cambridge IGCSE Physics 0972/04 Specimen Paper 2023 can be found in various formats.

  • Official Cambridge resources, including past papers and marking schemes.
  • Textbooks aligned with the Cambridge IGCSE syllabus.
  • Online educational platforms offering revision materials and practice questions.
  • Study groups and forums where students share resources and tips.