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November 2021 Physics Paper 2 OCR A Worked Solutions and Mark Schemes

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November 2021 Physics Paper 2 OCR A Worked Solutions and Mark Schemes
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Los

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This document contains the first 10 questions of an OCR A Level Physics Paper 2 exam from November 2021. The paper covers topics in exploring physics and tests students' knowledge of electromagnetic induction, optics, electrical circuits, and waves.

Key points:

  • The exam is 2 hours 15 minutes long
  • Total marks available: 100
  • Students must answer all questions
  • A scientific calculator and ruler are allowed
  • The Data, Formulae and Relationships Booklet is provided

The questions cover fundamental physics concepts and require students to apply their knowledge to solve problems and analyze scenarios. Topics include Faraday's law, diffraction gratings, electrical circuits with LEDs and capacitors, thermistors, interference, and sound waves.

03/08/2023

265

OCR A Level Physics Paper 2 - November 2021

This page provides key information about the OCR A Level Physics Paper 2 exam from November 2021. The exam is titled "Exploring Physics" and is designated as H556/02.

Key exam details:

  • Date: Thursday 14 October 2021 (Morning session)
  • Duration: 2 hours 15 minutes
  • Total marks: 100

Students are instructed to:

  • Use black ink for writing answers
  • Answer all questions in the spaces provided
  • Show working where appropriate, as marks may be given for correct methods

Allowed materials include:

  • Scientific or graphical calculator
  • Ruler (cm/mm)
  • Data, Formulae and Relationships Booklet (provided)

Highlight: The exam tests students' knowledge across a range of physics topics, requiring application of concepts to solve problems.

Vocabulary: H556/02 - This is the specific paper code for the OCR A Level Physics Paper 2 exam.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

Section A: Multiple Choice Questions

This page begins Section A of the exam, which consists of multiple choice questions. Students are advised to spend a maximum of 30 minutes on this section.

Question 1 tests understanding of Faraday's law of electromagnetic induction. The correct answer is D: electromotive force, linkage.

Question 2 relates to the diffraction and interference of monochromatic laser light incident on a diffraction grating. The correct answer is A: diffraction, interference.

Definition: Faraday's law of electromagnetic induction states that the induced electromotive force in a circuit is directly proportional to the rate of change of magnetic flux linkage.

Example: When monochromatic light passes through a diffraction grating, it produces a series of bright spots on a distant screen due to constructive interference of diffracted light waves.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

Multiple Choice Questions Continued

This page continues with multiple choice questions from Section A.

Question 3 involves calculating energy transfer in an electrical circuit. The correct answer is D: 130 J.

Question 4 tests understanding of electric fields and potentials between charged spheres. The correct answer is C: The direction of the electric field at P is to the left.

Question 5 relates to a circuit with light-emitting diodes (LEDs). Students must determine which LEDs are lit based on the circuit diagram. The correct answer is D: Q and S.

Example: To calculate energy transfer in an electrical circuit, use the formula E = VIt, where V is voltage, I is current, and t is time.

Vocabulary: Electric field - A region around a charged particle or object within which a force would be exerted on other charged particles or objects.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

Capacitor Discharge and Thermistor Circuit

This page contains questions 6 and 7 of Section A.

Question 6 involves modeling the decay of charge for a capacitor discharging through a resistor. Students must interpret a spreadsheet to determine the charge remaining after a certain time. The correct answer is C: 729 μC.

Question 7 presents a circuit with a thermistor and asks students to calculate the total potential difference across components. The correct answer is B: 7.0 V.

Definition: A thermistor is a temperature-sensitive resistor whose resistance changes significantly with temperature.

Highlight: Understanding capacitor discharge and thermistor behavior is crucial for analyzing various electrical and electronic systems.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

Interference and Sound Waves

This page covers questions 8 and 9 of Section A.

Question 8 deals with a double-slit interference experiment using two light sources with different wavelengths. Students must calculate the separation between adjacent bright fringes. The correct answer is C: 1.9 mm.

Question 9 involves analyzing a stationary sound wave in a tube closed at one end. Given the tube length and speed of sound, students must determine the frequency of the sound wave. The correct answer is A: 97 Hz.

Example: In a double-slit experiment, the separation between bright fringes is given by the formula y = λD/d, where λ is wavelength, D is distance to the screen, and d is slit separation.

Vocabulary: Stationary wave - A wave that remains in a constant position, formed by the interference of two waves traveling in opposite directions.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

Circuit Analysis

This final page of the provided transcript contains question 10 of Section A.

The question presents a circuit with a battery and multiple resistors. Students must analyze the circuit to determine the power dissipated in one of the resistors.

Key information provided:

  • Battery EMF: 6.0 V
  • Total current from battery: 30 mA
  • Current in resistor X: 10 mA
  • Resistors Y and Z are identical

Students are asked to calculate the power dissipated in resistor Z. The options given range from 30 mW to 60 mW.

Highlight: This question tests students' ability to apply Ohm's law and power calculations in a complex circuit scenario.

Vocabulary: EMF (Electromotive Force) - The energy per unit charge available from a source of electrical energy such as a battery.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

View

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Knowunity is the #1 education app in five European countries

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November 2021 Physics Paper 2 OCR A Worked Solutions and Mark Schemes
user profile picture

Los

@los

·

174 Followers

Follow

November 2021 Physics Paper 2 OCR A Worked Solutions and Mark Schemes

This document contains the first 10 questions of an OCR A Level Physics Paper 2 exam from November 2021. The paper covers topics in exploring physics and tests students' knowledge of electromagnetic induction, optics, electrical circuits, and waves.

Key points:

  • The exam is 2 hours 15 minutes long
  • Total marks available: 100
  • Students must answer all questions
  • A scientific calculator and ruler are allowed
  • The Data, Formulae and Relationships Booklet is provided

The questions cover fundamental physics concepts and require students to apply their knowledge to solve problems and analyze scenarios. Topics include Faraday's law, diffraction gratings, electrical circuits with LEDs and capacitors, thermistors, interference, and sound waves.

03/08/2023

265

OCR A Level Physics Paper 2 - November 2021

This page provides key information about the OCR A Level Physics Paper 2 exam from November 2021. The exam is titled "Exploring Physics" and is designated as H556/02.

Key exam details:

  • Date: Thursday 14 October 2021 (Morning session)
  • Duration: 2 hours 15 minutes
  • Total marks: 100

Students are instructed to:

  • Use black ink for writing answers
  • Answer all questions in the spaces provided
  • Show working where appropriate, as marks may be given for correct methods

Allowed materials include:

  • Scientific or graphical calculator
  • Ruler (cm/mm)
  • Data, Formulae and Relationships Booklet (provided)

Highlight: The exam tests students' knowledge across a range of physics topics, requiring application of concepts to solve problems.

Vocabulary: H556/02 - This is the specific paper code for the OCR A Level Physics Paper 2 exam.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

Register

Sign up to get unlimited access to thousands of study materials. It's free!

Access to all documents

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Improve your grades

By signing up you accept Terms of Service and Privacy Policy

Section A: Multiple Choice Questions

This page begins Section A of the exam, which consists of multiple choice questions. Students are advised to spend a maximum of 30 minutes on this section.

Question 1 tests understanding of Faraday's law of electromagnetic induction. The correct answer is D: electromotive force, linkage.

Question 2 relates to the diffraction and interference of monochromatic laser light incident on a diffraction grating. The correct answer is A: diffraction, interference.

Definition: Faraday's law of electromagnetic induction states that the induced electromotive force in a circuit is directly proportional to the rate of change of magnetic flux linkage.

Example: When monochromatic light passes through a diffraction grating, it produces a series of bright spots on a distant screen due to constructive interference of diffracted light waves.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

Register

Sign up to get unlimited access to thousands of study materials. It's free!

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Multiple Choice Questions Continued

This page continues with multiple choice questions from Section A.

Question 3 involves calculating energy transfer in an electrical circuit. The correct answer is D: 130 J.

Question 4 tests understanding of electric fields and potentials between charged spheres. The correct answer is C: The direction of the electric field at P is to the left.

Question 5 relates to a circuit with light-emitting diodes (LEDs). Students must determine which LEDs are lit based on the circuit diagram. The correct answer is D: Q and S.

Example: To calculate energy transfer in an electrical circuit, use the formula E = VIt, where V is voltage, I is current, and t is time.

Vocabulary: Electric field - A region around a charged particle or object within which a force would be exerted on other charged particles or objects.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

Register

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Capacitor Discharge and Thermistor Circuit

This page contains questions 6 and 7 of Section A.

Question 6 involves modeling the decay of charge for a capacitor discharging through a resistor. Students must interpret a spreadsheet to determine the charge remaining after a certain time. The correct answer is C: 729 μC.

Question 7 presents a circuit with a thermistor and asks students to calculate the total potential difference across components. The correct answer is B: 7.0 V.

Definition: A thermistor is a temperature-sensitive resistor whose resistance changes significantly with temperature.

Highlight: Understanding capacitor discharge and thermistor behavior is crucial for analyzing various electrical and electronic systems.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

Register

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Interference and Sound Waves

This page covers questions 8 and 9 of Section A.

Question 8 deals with a double-slit interference experiment using two light sources with different wavelengths. Students must calculate the separation between adjacent bright fringes. The correct answer is C: 1.9 mm.

Question 9 involves analyzing a stationary sound wave in a tube closed at one end. Given the tube length and speed of sound, students must determine the frequency of the sound wave. The correct answer is A: 97 Hz.

Example: In a double-slit experiment, the separation between bright fringes is given by the formula y = λD/d, where λ is wavelength, D is distance to the screen, and d is slit separation.

Vocabulary: Stationary wave - A wave that remains in a constant position, formed by the interference of two waves traveling in opposite directions.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

Register

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Circuit Analysis

This final page of the provided transcript contains question 10 of Section A.

The question presents a circuit with a battery and multiple resistors. Students must analyze the circuit to determine the power dissipated in one of the resistors.

Key information provided:

  • Battery EMF: 6.0 V
  • Total current from battery: 30 mA
  • Current in resistor X: 10 mA
  • Resistors Y and Z are identical

Students are asked to calculate the power dissipated in resistor Z. The options given range from 30 mW to 60 mW.

Highlight: This question tests students' ability to apply Ohm's law and power calculations in a complex circuit scenario.

Vocabulary: EMF (Electromotive Force) - The energy per unit charge available from a source of electrical energy such as a battery.

8334 36 45
OCR
Oxford Cambridge and RSA
Thursday 14 October 2021 - Morning
A Level Physics A
H556/02 Exploring physics
Time allowed: 2 hours

Register

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H556/02 Exploring physics
Time allowed: 2 hours

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H556/02 Exploring physics
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H556/02 Exploring physics
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Still not convinced? See what other students are saying...

iOS User

I love this app so much, I also use it daily. I recommend Knowunity to everyone!!! I went from a D to an A with it :D

Philip, iOS User

The app is very simple and well designed. So far I have always found everything I was looking for :D

Lena, iOS user

I love this app ❤️ I actually use it every time I study.