Syllabus Edition
First teaching 2014
Last exams 2024
1 markA stone falls from rest to the bottom of a water well of depth d. The time t taken to fall is 3.0 ± 0.3 s. The depth of the well is calculated to be 30 m using d = 
at2. The uncertainty in a is negligible.
What is the absolute uncertainty in d?
± 0.6 m
± 3 m
± 24 m
± 6 m
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1 markThe units of all physical quantities can be expressed in terms of SI base units.
Which pair contains quantities with different base units?
emf and lost volts
mass per unit area and density
impulse and momentum
work and energy
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1 markA stone is released from a hot air balloon moving upwards with a uniform velocity of 25 m s–1.
If the hot air balloon is 30 m high when the stone was dropped, what is its height when the stone hits the ground?
180 m
55 m
150 m
60 m
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1 markA ball starts from rest and moves horizontally. Five positions of the ball are shown at time intervals of 0.50 ms. The horizontal distance between X, the initial position, and Y, the final position, is 0.060 m.
What is the average acceleration of the ball between X and Y?
48 m s–2
60 m s–2
19 200 m s–2
30 000 m s–2
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1 markAn object is released from a stationary hot air balloon at height s above the ground. Air resistance is negligible.
An identical object is released at the same height above the ground from another balloon that is rising at a constant speed.
Which of the following does not increase for the object released from the rising balloon?
The time taken for it to reach the ground
The distance through which it falls
Its acceleration
The speed with which it hits the ground
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1 markA frictionless spring-operated latched is fitted to a door.
When the latch is pushed in, the spring compresses.
When the latch is released, which of the following best represents how acceleration a of the latch varies with the distance x it moves before stopping?
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1 markWhat is the definition of an external force?
Forces that act on a system from outside of it
Forces exchanged by the particles in a system
Every action has an equal and opposite reaction
The rate of change of momentum on a body
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1 markWhich of the following is true for momentum and impulse?
Momentum is conserved in an inelastic collision
Impulse is the momentum
The direction in which an object is travelling in doesn’t affect its impulse
A heavier object always experiences a greater impulse than a lighter one
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1 markA child whirls a conker on a string around their head. The conker moves with uniform circular motion. The linear speed of the conker is 5 m s−1 and the radius of the circle is 0.5 m.
Calculate the angular speed of the conker.
2.5 rad s−1
0.5 rad s−1
10 rad s−1
5 rad s−1
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1 markLiquid iron solidifies without a change in temperature.
Which of the following is correct for the molecules in the solid phase compared with molecules in the liquid phase?
|
|
Potential energy |
Kinetic energy |
|
A. |
same |
same |
|
B. |
same |
less |
|
C. |
less |
less |
|
D. |
less |
same |
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1 markThe strength of intermolecular forces varies between in the different states of matter.
What is the order from highest to lowest strength of intermolecular forces?
solid > liquid > gas
solid > gas > liquid
liquid > gas > solid
gas > liquid > solid
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1 markA sealed cylinder contains water at 10 °C and ice at 0 °C. The system has been thermally isolated from the surroundings. The ice and the water reach thermal equilibrium.
What happens to the total internal energy of the system in order for equilibrium to be reached?
It reduces
It increases
It increases until the ice has melted and then remains constant
It remains constant
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1 markA spring in a ball point pen has a mass of 0.10 g and a specific heat capacity of 400 J kg−1 K−1 and a spring constant k = 200 N m−1. To open or close the nib of the pen the spring is compressed by 8 mm. Upon release 5% of the elastic potential energy stored is converted into heat energy in the spring.
How many times must the spring be compressed and released to cause the temperature of the pen to increase by 2 °C?
Assume that no heat is lost from the pen.
250
80 000
250 000
100
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1 markWhich of the following graphs shows the variation with displacement x of the speed v of a particle performing simple harmonic motion?
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1 markA mass is attached to a spring from above and the spring is secured to a clamp. The mass is pulled down and released resulting in a simple harmonic oscillation.
Which one of the following statements is true?
The tension, T, in the spring is at a minimum as the mass passes through the equilibrium position
The total potential energy, EP, in the system is at a maximum when the mass is at the highest point of its oscillation
The acceleration, a, of the mass is at a maximum as it passes through the equilibrium position
The kinetic energy, EK, is at a minimum when the mass is at the lowest point in its oscillation
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1 markWhen a light ray enters a denser medium and refracts, some of the characteristics of the wave will change. Which of the following options is correct about this change?
|
|
Speed |
Frequency |
Wavelength |
|
A |
Increases |
Decreases |
Stays constant |
|
B |
Decreases |
Stays constant |
Decreases |
|
C |
Stays constant |
Decreases |
Increases |
|
D |
Increases |
Increases |
Stays constant |
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1 markAn unpolarised electromagnetic wave passes through 2 polarisers. The second polariser is at a clockwise angle a to the vertical.
When a = 225 ° what percentage of the unpolarised light is transmitted through both filters?
25%
50%
12.5%
6.25%
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1 markTwo microwave transmitters are set up to emit microwaves so that a stationary wave is created between them. The microwaves have a frequency of 300 MHz.
Which line correctly gives both the formula which represents the the distance between two adjacent nodes in the standing wave and the value for the distance?
| Formula | Distance | |
| A. |  |
50 cm |
| B. |  |
2.0 m |
| C. | |
5.0 m |
| D. | |
20 cm |
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1 markThe double-slit equation describes the relationship between the separation distance of the fringes on the screen, s, the distance between the screen and the slits, D, the separation of the slits, d, and the wavelength, λ, of the light.
s = 
Which line gives the correct units for the quantities?
|
s |
D |
λ |
d |
|
|
A. |
m |
m |
m |
m |
|
B. |
m−1 |
m |
m s−1 |
m |
|
C. |
m | m s−1 | m | m−1 |
|
D. |
m2 |
m−1 |
m |
m |
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1 markThe Tolman-Stewart experiment sought to find evidence that mobile charge carriers inside conducting metals are negatively charged.
It involved exploiting the inertia of ‘free’ charge carriers in the conductor. If the conductor was suddenly accelerated, a potential difference would be set up.
Assuming positive charges are fixed in place and mobile charge carriers are negative, which of the following statements about the Tolman-Stewart experiment is incorrect?
Accelerating the conductor created an area of excess negative charge in it
Accelerating the conductor created an area of excess positive charge in it
Electrons have inertia
The potential difference created by the acceleration was not measurable
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1 markFive resistors of equal resistance are connected to a cell as shown.
Which of the following is correct about the power dissipated PX, PY and PZ in resistors X, Y and Z respectively?
| PX | PY | PZ | |
| A. |  |
 |
 |
| B. |  |
|
 |
| C. | |
 |
|
| D. | |
|
|
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1 markWhich of the following correctly describes the electromotive force of a cell?
The difference in energy between that needed to drive unit charge through the load resistance and through the cell
The energy used to drive unit charge through the load resistance
The energy used to drive unit charge through the cell's internal resistance
The total energy used to drive unit charge round the complete circuit
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1 markA current of 3.0 mA flows in a wire of length 2.0 m. It is placed in a magnetic field of flux density 4 T such that the angle between the current and the field is 90º.
What is the magnitude of the magnetic force on the wire?
0.012 N
0.024 N
8 N
24 N
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1 markA photo hangs from two strings. It has a weight W and the two strings have equal tension T.
What is the free–body diagram for this situation?
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1 markA body moves in a circle with increasing angular velocity. At times t, the angles θ swept out by the body added cumulatively from the same reference point and its angular velocities ω are as follows:
|
t / s |
θ / rad |
ω / rad s–1 |
|
5 15 25 35 |
2 16 42 80 |
0.4 2.4 4.4 6.4 |
The angular acceleration of the body:
is constant at 0.2 rad s–2
gradually decreases and is 6.25 rad s–2 when t = 15 s
is constant at 0.4 rad s–2
increases at a constant rate and is 0.2 rad s–2 when t = 15 s
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1 markUnstable nuclei make up 10% of a sample’s mass. The count rate of the sample is measured over a time period of 8 hours.
After some time has passed, the percentage of the sample which is unstable reduces to 2.5%. What is the count rate of the source at this time?
90 cpm
60 cpm
45 cpm
30 cpm
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1 markA stationary uranium-238 nucleus decays by alpha-emission, as shown in the equation below:
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This decay generates a total energy E.
Which of the following statements is correct regarding the kinetic energy of the alpha particle?
It is slightly less than 0.5E
It is equal to E
It is slightly greater than 0.5E
It is slightly less than E
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1 markThe diagram shows the decay chain for a particular isotope.
What are the isotopes labelled 1, 2 and 3?
|
1 |
2 |
3 |
|
|
A |
 |
 |
 |
|
B |
 |
|
|
|
C |
|
 |
 |
|
D |
|
|
|
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1 markA liquid is initially at its boiling point. Energy is continuously supplied to the liquid at a uniform rate until it has completely evaporated.
Which graph shows how the temperature of the liquid, T, varies with the energy, Q, supplied to the liquid?
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1 markThe Sankey diagram shows the energy transformations in a laptop computer while a person is watching a film.
What is the efficiency of the laptop?
3 %
8 %
31 %
69 %
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