Question 1.
Which unit is not an SI base unit?
(A) A
(B) kg
(C) C
(D) s
▶️Answer/Explanation
Ans: C
Question 2.
2 What is the best estimate of the number of atoms in a piece of metal of volume 50 cm³?
(A) $5 × 10^{15}$
(B) $5 × 10^{25}$
(C) $5 × 10^{29}$
(D) $5 × 10^{31}$
▶️Answer/Explanation
Ans: B
Question 3.
A copper pipe has a true diameter of 42.03 mm. A builder measures the diameter of the pipe five times using digital calipers. The measurements are shown.
What describes the builder’s measurements?
(A) accurate and precise
(B) accurate but not precise
(C) not precise and not accurate
(D) precise but not accurate
▶️Answer/Explanation
Ans: D
Question 4.
Two forces, each of 10N, act at a point P, as shown. The angle between the directions of the forces is $120^{°}$.
What is the magnitude of the resultant force?
(A) 5 N
(B) 10 N
(C) 17 N
(D) 20 N
▶️Answer/Explanation
Ans: B
Question 5.
One object moves directly from P to R.
In a shorter time, a second object moves from P to Q to R.
Which statement about the two objects is correct for the journey from P to R?
(A) They have the same average speed.
(B) They have the same average velocity.
(C) They have the same displacement.
(D) They travel the same distance.
▶️Answer/Explanation
Ans: C
Question 6.
A ball is kicked so that it has an initial velocity of $12 m s^{-1}$ at an angle of 50° to horizontal ground.
Assume that air resistance is negligible.
What is the maximum height above the ground that is reached by the ball?
(A) 0.47 m
(B) 3.0 m
(C) 4.3 m
(D) 7.3 m
▶️Answer/Explanation
Ans: C
Question 7.
A camera drone of mass 1.20 kg hovers at a fixed point above the ground. The drone has four propellers.
In a time of 1.00 s, each propeller pushes a mass of 0.400 kg of air vertically downwards. Assume that the air above the propellers is stationary.
What is the speed of the air leaving each propeller?
(A) $0.750 m s^{-1}$
(B) $3.00 m s^{-1}$
(C) $7.36 m s^{-1}$
(D) $29.4 m s^{-1}$
▶️Answer/Explanation
Ans: C
Question 8.
A box rests on the Earth, as shown. Newton’s third law describes how forces of the same type act in pairs. One of the forces of a pair is the weight W of the box.
Which arrow represents the other force of this pair?
▶️Answer/Explanation
Ans: A
Question 9.
A small ball is held at the surface of liquid oil in a container. The ball is released from rest and falls through the oil. The ball has velocity v. A viscous (drag) force F acts on the ball.
Which graph could show the variation with v of F?
▶️Answer/Explanation
Ans: A
Question 10.
An object of mass m, moving at speed u along a frictionless horizontal surface, collides head-on with a stationary object of mass 4m.
After the collision, the object of mass m rebounds along its initial path with 4 1 of its kinetic energy before the collision.
What is the speed of the object of mass 4m after the collision?
(A) $\frac{u}{8}$
(B) $\frac{3u}{16}$
(C) $\frac{5u}{16}$
(D) $\frac{3u}{8}$
▶️Answer/Explanation
Ans: D
Question 11.
The driver of a car applies two parallel forces to a steering wheel, as shown.
Each force has a magnitude of 15 N and acts in the direction shown. The steering wheel has a diameter of 0.40 m.
What is the torque exerted on the steering wheel?
(A) 1.3 N m
(B) 2.5 N m
(C) 2.7 N m
(D) 5.4 N m
▶️Answer/Explanation
Ans: D
Question 12.
A farmer is trying to lift the corner of a large water tank. She uses a metal rod as a lever.
The vertical force from the farmer is constant and is always applied to the end of the rod.
Which change must increase the upward force on the water tank?
(A) using a longer rod and moving the pivot closer to the tank
(B) using a longer rod and moving the pivot further away from the tank
(C) using a shorter rod and moving the pivot closer to the tank
(D) using a shorter rod and moving the pivot further away from the tank
▶️Answer/Explanation
Ans: C
Question 13.
The diagram shows a ball of weight W hanging in equilibrium from a string.
The string is at an angle θ to the vertical. The tension in the string is T. The ball is held away from the wall by a horizontal force P from a metal rod.
Which relationship between the magnitudes of T, P and W is correct?
(A) P = T cosθ and W = T sinθ
(B) T = P + W
(C) T²= P²+ W²
(D) W = P tanθ and W = T cosθ
▶️Answer/Explanation
Ans: C
Question 14.
Which expression for pressure is correct?
(A) force per unit area
(B) force per unit volume
(C) mass per unit area
(D) mass per unit volume
▶️Answer/Explanation
Ans: A
Question 15.
A ball has a mass of 0.50 kg and a volume of $1.3\times 10^{-3}m^{3}$. The ball is floating in equilibrium on still water.
The two forces that act on the ball are its weight and the upthrust due to the water.
The density of the water is $1.0\times 10^{3}kg m^{3}$.
What is the percentage of the volume of the ball above the surface of the water?
(A) 3.9%
(B) 38%
(C) 62%
(D) 96%
▶️Answer/Explanation
Ans: C
Question 16.
A man sits on a buggy that is pulled along by a wire attached to a kite. The wire is at an angle of 40 to the horizontal and has a constant tension of 200N. The man and buggy travel a distance of 20m along a straight horizontal path. The wire and the path of the buggy are in the same vertical plane.
What is the work done by the tension force on the man and buggy?
(A) 2.6kJ
(B) 3.1kJ
(C) 3.4kJ
(D) 4.0kJ
▶️Answer/Explanation
Ans: B
Question 17.
A ball is thrown vertically upwards from the surface of the Earth. Which statement describes the energy of the ball as it rises through the air?
(A) The kinetic energy of the ball decreases as the gravitational potential energy decreases.
(B) The kinetic energy of the ball decreases as the gravitational potential energy increases.
(C) The kinetic energy of the ball increases as the gravitational potential energy decreases.
(D) The total energy of the ball increases.
▶️Answer/Explanation
Ans: B
Question 18.
A lamp is suspended in equilibrium from a fixed support by three long identical wires.
The weight of the lamp causes each wire to have an extension of 0.40 cm. The height h of the lamp above the floor is measured. The middle wire suddenly breaks
and the lamp falls a small distance as the extensions of the remaining two wires increase. The wires obey Hooke’s law. When the lamp is in equilibrium, the height h of the lamp above the floor is measured again.
What is the difference between the two values of h?
(A) 0.20 cm
(B) 0.27 cm
(C) 0.40 cm
(D) 0.60 cm
▶️Answer/Explanation
Ans: A
Question 19.
The force–extension graph for a spring is shown.
What represents the work done to extend the spring?
(A) the area under the graph
(B) the gradient of the graph
(C) the reciprocal of the gradient of the graph
(D) twice the area under the graph
▶️Answer/Explanation
Ans: B
Question 20.
In an experiment, a student uses a microphone and a cathode-ray oscilloscope (CRO) to analyse a sound wave. The diagram shows the trace on the screen of the CRO.
The student is expecting a sinusoidal waveform to be shown on the screen.
Which changes should the student make to the time-base and the y-gain of the CRO so that the screen shows a continuous trace for one complete cycle of the waveform?
▶️Answer/Explanation
Ans: D
Question 21.
The graph shows the variation with time of the displacement of a particle in a progressive wave.
Two measurements, x and y, are labelled on the graph. What do x and y represent?
▶️Answer/Explanation
Ans: A
Question 22.
A car travels at a constant speed along a straight line PQ.
A loudspeaker attached to the car emits sound of constant frequency f. A stationary observer is at point O.
What does the observer hear as the car moves from P towards Q?
(A) a frequency less than f that decreases as the car moves from P towards Q
(B) a frequency less than f that increases as the car moves from P towards Q
(C) a frequency more than f that decreases as the car moves from P towards Q
(D) a frequency more than f that increases as the car moves from P towards Q
▶️Answer/Explanation
Ans: C
Question 23.
Some sources of electromagnetic waves in free space are listed.
1 a radio wave transmitter
2 a source of X-rays
3 a 30 mm wavelength radar transmitter
4 a light-emitting diode that emits red light
Which list gives the sources in order of increasing wavelength, from left to right, of the waves emitted by the sources?
(A) 1 → 3 → 4 → 2
(B) 2 → 4 → 1 → 3
(C) 2 → 4 → 3 → 1
(D) 3 → 1 → 4 → 2
▶️Answer/Explanation
Ans: C
Question 24.
A vertically polarised beam of light is incident normally on a polarising filter. The transmission axis of the filter is at an angle of 40° to the horizontal.
(A) 0.41
(B) 0.59
(C) 0.64
(D) 0.77
▶️Answer/Explanation
Ans: C
Question 25.
Two progressive waves meet at a point. Which condition must be met for superposition of the waves to occur?
(A) The waves must be coherent.
(B) The waves must be of the same type.
(C) The waves must be travelling in opposite directions.
(D) The waves must meet in phase.
▶️Answer/Explanation
Ans: B
Question 26.
A string is stretched between a vibration generator and a fixed point.
When the vibration generator is vibrating at a frequency f, a stationary wave with five nodes is created on the stretched string, as shown. There is a node at the end of the string that is attached to the vibration generator.
The frequency of vibration of the vibration generator is slowly increased.
What is the next frequency that produces a stationary wave on the string?
(A) 1.25f
(B) 1.50f
(C) 1.75f
(D) 2.00f
▶️Answer/Explanation
Ans: A
Question 27.
A ripple tank and a barrier with a single gap are used to demonstrate the diffraction of surface
ripples on water. Initially, the wavelength of the ripples is five times smaller than the gap in the barrier.
Which change increases the amount of diffraction observed?
(A) double the amplitude of the ripples
(B) double the width of the gap
(C) halve the frequency of the ripples
(D) halve the wavelength of the ripples
▶️Answer/Explanation
Ans: C
Question 28.
A laser produces a beam of light of wavelength 650 nm. The beam is incident normally on two slits that are a distance of 0.12 mm apart.
A screen is placed parallel to the slits. The bright interference fringes on the screen have a separation of 7.5 cm.
What is the distance between the screen and the two slits?
(A) 1.4 m
(B) 2.8 m
(C) 7.0 m
(D) 14 m
▶️Answer/Explanation
Ans: D
Question 29.
A beam of light from a laser is incident normally on a diffraction grating.
The diagram shows only the second-order maxima that are produced.
The grating has a line spacing of $1.0 × 10^{-6}m$. The angle between the two second-order maxima is 110°.
What is the wavelength of the light?
(A) $4.1 × 10^{-7} m$
(B) $4.7 × 10^{-7}m$
(C) $8.2 × 10^{-7} m$
(D) $9.4 × 10^{-7} m$
▶️Answer/Explanation
Ans: A
Question 30.
The electric current in a metal wire is 4.0 mA. How many electrons pass a fixed point in the wire in a time of 10 hours?
(A) $2.5 × 10^{17}$
(B) $2.5 × 10^{20}$
(C) $9.0 × 10^{20}$
(D) $9.0 × 10^{23}$
▶️Answer/Explanation
Ans: B
Question 31.
What is the definition of the potential difference across an electrical component?
(A) the charge per unit time passing through the component
(B) the energy transferred per unit charge
(C) the force per unit charge
(D) the resistance per unit current
▶️Answer/Explanation
Ans: B
Question 32.
Which graph shows the I–V characteristic of a filament lamp?
▶️Answer/Explanation
Ans: D
Question 33.
A metal wire has a length of 2.50 m and a cross-sectional area of $4.50 × 10^{-6} m²$ . The resistivity of the metal is $3.50 ×10^{-7}\Omega m$.
The wire is stretched so that its length increases to 2.65 m. The wire remains cylindrical and the volume of the wire remains constant.
What is the change in the resistance of the wire?
(A) $0.012\Omega $
(B) $0.024\Omega $
(C) $0.19\Omega $
(D) $0.22\Omega $
▶️Answer/Explanation
Ans: B
Question 34.
Which circuit symbol represents a microphone?
▶️Answer/Explanation
Ans: C
Question 35.
A battery with internal resistance is connected to a fixed resistor, an ammeter and a voltmeter, as shown.
The battery is replaced by a different battery that has the same electromotive force (e.m.f.) but a greater internal resistance.
What happens to the readings on the ammeter and voltmeter?
▶️Answer/Explanation
Ans: A
Question 36.
Four potential divider circuits each consist of a battery of electromotive force (e.m.f.) 9V and negligible internal resistance connected to a combination of resistors. Each of the resistors in the circuits has a resistance of X or 2X.
Which circuit has the largest output voltage V?
▶️Answer/Explanation
Ans: B
Question 37.
A voltmeter is connected into a circuit with the polarity shown.
The sliding contact is moved to end P of the potentiometer and then to end Q.
What are the two readings of the voltmeter?
▶️Answer/Explanation
Ans: D
Question 38.
A proton has mass $m_{p}$ and charge +e.
What are the mass and charge of an antiproton?
▶️Answer/Explanation
Ans: D
Question 39.
A uranium nucleus has 92 protons and 143 neutrons.
The nucleus emits a total of 3 α-particles and 4 β–particles to form nucleus X.
How can nucleus X be represented?
(A) $_{90}^{131}\textrm{x}$
(B) $_{87}^{219}\textrm{x}$
(C) $_{82}^{223}\textrm{x}$
(D) $_{90}^{223}\textrm{x}$
▶️Answer/Explanation
Ans:- D
Question 40.
Which statement about a proton is correct?
(A) A proton is a baryon but not a meson.
(B) A proton is a meson but not a hadron.
(C) A proton is both a hadron and a meson.
(D) A proton is both a meson and a baryon.
▶️Answer/Explanation
Ans:- A