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Question 1

Topic – 1.1 Physical quantities and measurement techniques

Which quantity is a scalar quantity?

A) acceleration
B) force
C) time
D) velocity

▶️Answer/Explanation

Ans: C

Question 2

Topic – 1.2 Motion

A student measures the average speed of a cyclist in a race.
Which quantities must she measure?

A) the total time taken to complete the race and the time taken for the cyclist to reach her highest speed
B) the total time taken to complete the race and the total distance travelled by the cyclist at her highest speed
C) the total time taken to complete the race and the total distance travelled by the cyclist
D) the time taken to reach her highest speed and the total distance travelled by the cyclist

▶️Answer/Explanation

Ans: C

Question 3

Topic – 1.2 Motion

The diagram shows a series of images of a moving object taken at regular intervals.
The object is moving from left to right.

Which statement describes the motion of the object?

A) The object accelerates continuously.
B) The object decelerates continuously.
C) The object travels at constant speed and then accelerates.
D) The object travels at constant speed and then decelerates.

▶️Answer/Explanation

Ans: C

Question 4

Topic – 1.4 Density

A plastic ball has a mass of 4.0 g and a volume of 20 \(cm^{3}\).
There is a crack in the ball’s surface.
The ball is placed in a bath of water. Water leaks into the ball without changing the volume of the ball and eventually the ball sinks.
The density of water = 1.0 g / \(cm^{3}\).
Which mass of water has entered the ball when the top of the ball is first level with the water surface?

A) 5.0 g
B) 16 g
C) 20 g
D) 24 g

▶️Answer/Explanation

Ans: B

Question 5

Topic – 1.5 Forces

A satellite orbits the Earth at constant speed in a circular orbit.
Which statement is correct?

A) The resultant force on the satellite is zero.
B) The resultant force on the satellite is towards the Earth.
C) The resultant force on the satellite is away from the Earth.
D) The resultant force on the satellite is in the direction of its motion.

▶️Answer/Explanation

Ans: B

Question 6

Topic – 1.5 Forces

The diagrams show four identical objects. Each object is acted on by only the forces shown.
Which diagram shows an object in equilibrium?

▶️Answer/Explanation

Ans: D

Question 7

Topic – 1.6 Momentum

A resultant force F accelerates a car of mass m along a straight horizontal road from rest to a speed v in time t, giving it momentum p.
Which pair of relationships for this situation is correct?

A) pt = mv and F = pt
B) p = mv and F = pt
C) p = mv and Ft = p
D) p = mvt and Ft = v

▶️Answer/Explanation

Ans: C

Question 8

Topic – 1.7.1 Energy

The diagram shows part of a rollercoaster ride with the car at different positions.
The car runs freely down from position X to position Y and up the hill on the other side.

What happens to the energy in the kinetic store and the gravitational potential store of the car as it moves from position X to position Y?

▶️Answer/Explanation

Ans: C

Question 9

Topic – 1.7.2 Work

A box is initially at rest at the top of a rough slope.
The box slides down the slope.
The weight of the box is 20 N.
The slope is 4.0 m long and 2.0 m high.

The box does 10 J of work against friction as it slides down the slope.
What is the speed of the box as it reaches the bottom of the slope?

A) 5.4 m / s
B) 6.3 m / s
C) 7.1 m / s
D) 9.5 m / s

▶️Answer/Explanation

Ans: A

Question 10

Topic – 1.7.4 Power

An electric car is charged overnight. In 8.0 hours, 180 MJ of energy is transferred.
What is the power of the charger?

A) 6.3 kW
B) 380 kW
C) 23 MW
D) 1400 MW

▶️Answer/Explanation

Ans: A

Question 11

Topic – 1.8 Pressure

An object is a depth h below the surface of a liquid. The pressure due to the liquid at this depth is p. The gravitational field strength is g.
What is the density ρ of the liquid?

A) \(\rho = pgh\)
B) \(\rho = \frac{pg}{h}\)
C) \(\rho = \frac{ph}{g}\)
D) \(\rho = \frac{p}{hg}\)

▶️Answer/Explanation

Ans: D

Question 12

Topic – 2.1.2 Particle model

Brownian motion is the random motion of particles.
In which states of matter is Brownian motion observed?

A) gases, liquids and solids
B) gases and liquids only
C) gases and solids only
D) liquids and solids only

▶️Answer/Explanation

Ans: B

Question 13

Topic – 2.1.3 Gases and the absolute scale of temperature

The volume of a fixed mass of gas is varied. The temperature remains constant.
Which graph shows how the pressure p of the gas varies with volume V ?

▶️Answer/Explanation

Ans: D

Question 14

Topic – 2.2.3 Melting, boiling and evaporation

Liquid evaporates from a beaker.
What happens to the temperature of the remaining liquid and how does this temperature change affect the rate of evaporation?

▶️Answer/Explanation

Ans: A

Question 15

Topic – 2.2.2 Specific heat capacity

Thermal energy ΔE is supplied to an object of mass m which does not change its state during the heating process. The temperature of the object rises by ΔT.
What is the specific heat capacity of the object?

A) \(\frac{\Delta E}{m\Delta T}\)
B) \(\frac{m\Delta T}{\Delta E}\)
C) \(\frac{\Delta E \Delta T}{m}\)
D) \(\frac{\Delta Em}{\Delta T}\)

▶️Answer/Explanation

Ans: A

Question 16

Topic – 2.3.2 Convection

A room is heated by a radiator. The diagrams X and Y show two possible circulations of hot air, which heat the room.

Which diagram and reason explain the heating of the room by convection?

▶️Answer/Explanation

Ans: A

Question 17

Topic – 3.1 General properties of waves

A student writes down some facts about two transverse waves.
Wave 1 has a frequency f and a velocity v.
Wave 2 has four times the frequency of wave 1 and is travelling at a velocity of 2v.
What is the wavelength of wave 2 in terms of f and v?

A) \(\frac{2f}{v}\)
B) 8fv
C) \(\frac{2v}{f}\)
D) \(\frac{v}{2f}\)

▶️Answer/Explanation

Ans: D

Question 18

Topic – 3.1 General properties of waves

Straight wavefronts on the surface of a ripple tank approach a gap in a barrier. The diagram shows how the wavefronts change shape as they pass through the gap.

What is the name of this effect?
A) diffraction
B) propagation
C) reflection
D) refraction

▶️Answer/Explanation

Ans: A

Question 19

Topic – 3.2.2 Refraction of light

Light travels from air into glass.
What is the relationship between the refractive index n of the glass, the angle of incidence i and the angle of refraction r ?

A) n = \(\frac{i}{r}\)
B) n = \(\frac{r}{i}\)
C) n = \(\frac{sin i}{sin r}\)
D) n = \(\frac{sin r}{sin i}\)

▶️Answer/Explanation

Ans: C

Question 20

Topic – 3.2.1 Reflection of light

Which diagram shows the image correctly formed by reflection?

▶️Answer/Explanation

Ans: D

Question 21

Topic – 3.2.3 Thin lenses

A student passes parallel rays of light through four different converging lenses. He measures the distance x and the distance y for each experiment.

Which lens has the longest focal length?

▶️Answer/Explanation

Ans: B

Question 22

Topic – 3.3 Electromagnetic spectrum

The frequency of the microwaves used in a microwave oven is 2400 MHz.
What is the wavelength of these microwaves?

A) 0.125 m
B) 8.00 m
C) 125 m
D) 7200 m

▶️Answer/Explanation

Ans: A

Question 23

Topic – 3.4 Sound

Which row gives typical values for the speed of sound in a solid and in a gas?

▶️Answer/Explanation

Ans: D

Question 24

Topic – 4.1 Simple phenomena of magnetism

A hard magnetic material can be used to make a permanent magnet.
A soft magnetic material can be used to make a temporary magnet.
Which row shows whether iron and steel are hard or soft magnetic materials?

▶️Answer/Explanation

Ans: C

Question 25

Topic – 4.2.2 Electric current

A power source is connected to a resistor XY.

In which directions are the conventional current and the flow of free electrons through the resistor?

▶️Answer/Explanation

Ans: C

Question 26

Topic – 4.2.3 Electromotive force and potential difference

Which unit is used to measure electromotive force (e.m.f.)?

A) ampere
B) joule
C) volt
D) watt

▶️Answer/Explanation

Ans: C

Question 27

Topic – 4.2.4 Resistance

The graph shows the current–voltage characteristic for a filament lamp.

Which statement describes how the resistance of the lamp changes as the voltage increases?

A) The resistance decreases to zero.
B) The resistance decreases, but not to zero.
C) The resistance increases.
D) The resistance remains constant.

▶️Answer/Explanation

Ans: C

Question 28

Topic – 4.2.1 Electric charge

In the diagram, rod R is suspended from an insulating thread.

When the positively charged rod Q is brought close to rod R, rod R moves away from rod Q.
Which conclusion can be made from this observation?

A) Rod R is charged, but it is not possible to identify the sign of the charge.
B) Rod R must be positively charged.
C) Rod R must be negatively charged.
D) Rod R is uncharged.

▶️Answer/Explanation

Ans: B

Question 29

Topic – 4.5.5 The d.c. motor

The circuit diagram shows a circuit used to run a d.c. motor from an a.c. supply.

Which graph shows the current in the motor?

▶️Answer/Explanation

Ans: D

Question 30

Topic – 4.3.2 Series and parallel circuits

The circuit shown can be completed by inserting components at X and at Y. The completed circuit is a potential divider in which the potential difference across component Y increases when the temperature increases.

Which row shows the components X and Y?

▶️Answer/Explanation

Ans: D

Question 31

Topic – 4.5.1 Electromagnetic induction

A piece of soft iron XY has a coil of wire wound round it.

The N pole of a bar magnet is pulled away from end X which causes an induced current in the coil.
The magnet is now turned round so that the N pole is on the left. It is taken to the other end of the soft iron and the N pole is pushed towards end Y. A new current is induced in the coil.
Which statement is correct?

A) The new induced current is in the opposite direction and causes the soft iron to attract the N pole.
B) The new induced current is in the opposite direction and causes the soft iron to repel the N pole.
C) The new induced current is in the same direction and causes the soft iron to attract the N pole.
D) The new induced current is in the same direction and causes the soft iron to repel the N pole.

▶️Answer/Explanation

Ans: D

Question 32

Topic – 4.5.4 Force on a current-carrying conductor

The diagram shows a wire in the magnetic field between two poles of a magnet.

The current in the wire repeatedly changes between a constant value in one direction and a constant value in the opposite direction, as shown in the graph.

What is the effect on the wire?

A) The force on the wire alternates between one direction and the opposite direction.
B) The force on the wire is constant in size and direction.
C) There is no force acting on the wire at any time.
D) There is only a force on the wire when the current reverses.

▶️Answer/Explanation

Ans: A

Question 33

Topic – 4.5.6 The transformer

A transformer has \(N_{p}\) turns on its primary coil and \(N_{s}\) turns on its secondary coil. The voltage across the primary coil is \(V_{p}\) and the voltage across the secondary coil is \(V_{s}\).
What is the relationship between these four quantities?

A) \(V_{p}\) × \(V_{s}\) = \(N_{p}\) × \(N_{s}\)
B) \(\frac{V_{p}}{V_{s}} = \frac{N_{p}}{N_{s}}\)
C) \(\frac{V_{p}}{V_{s}} = \frac{N_{s}}{N_{p}}\)
D) \(\frac{V_{p}}{V_{s}} = N_{p}\times N_{s}\)

▶️Answer/Explanation

Ans: B

Question 34

Topic – 5.1.1 The atom

A magnesium ion has a double positive charge and a chloride ion has a single negative charge.
Which statement is correct?

A) A chlorine atom gains an electron to form the chloride ion.
B) A chlorine atom loses a proton to form the chloride ion.
C) A magnesium atom loses an electron to form the magnesium ion.
D) A magnesium atom gains two electrons to form the magnesium ion.

▶️Answer/Explanation

Ans: A

Question 35

Topic – 5.2.3 Radioactive decay

Which row correctly describes an example of radioactive decay?

▶️Answer/Explanation

Ans: B

Question 36

Topic – 5.2.4 Half-life

A radioactive isotope of sodium has a half-life of 15 h.
The table gives data from an experiment to show how the rate of decay of the isotope varies with time.
The background count rate has not been subtracted from these data.

What is the background radiation count rate?

A) 12 counts/s
B) 15 counts/s
C) 20 counts/s
D) 30 counts/s

▶️Answer/Explanation

Ans: C

Question 37

Topic – 5.1.2 The nucleus

What happens in the process of nuclear fission?

A) Electrons are added to a nucleus.
B) Electrons are removed from a nucleus.
C) The nucleus of an atom splits.
D) Two atomic nuclei join together.

▶️Answer/Explanation

Ans: C

Question 38

Topic – 6.1.2 The Solar System

The time taken for the Earth to orbit the Sun is approximately 365 days.
The average radius of the Earth’s orbit around the Sun is 1.5 × 108 km.
What is the average orbital speed of the Earth?

A) 30 m/s
B) 4.8 × \(10^{3}\) m/s
C) 3.0 × \(10^{4}\) m/s
D) 4.1 × \(10^{10}\) m/s

▶️Answer/Explanation

Ans: C

Question 39

Topic – 6.2.1 The Sun as a star

The Sun transfers energy to the Earth through electromagnetic radiation.
What are two of the parts of the electromagnetic spectrum to which most of the energy belongs?

A) gamma rays and X-rays
B) infrared radiation and visible light
C) microwaves and visible light
D) radio waves and microwaves

▶️Answer/Explanation

Ans: B

Question 40

Topic – 6.2.1 The Sun as a star

How does the Sun produce its energy?

A) by the fission of helium
B) by the fission of hydrogen
C) by the fusion of helium
D) by the fusion of hydrogen

▶️Answer/Explanation

Ans: D

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