9702 Physics June 2025 Question Paper 11

Which quantity is a vector?

Four students, \textbf{A}, \textbf{B}, \textbf{C} and \textbf{D}, have completed an experiment to determine the acceleration of free fall, $g$. Each student repeated the experiment three times. The determined values of $g$ are shown in the table.

Which set of results has a high precision and a low accuracy?

\begin{tabular}{|c|c|c|c|} \hline & \multicolumn{3}{c|}{acceleration of free fall / $\text{m}\,\text{s}^{-2}$} \ \cline{2-4} & experiment 1 & experiment 2 & experiment 3 \ \hline \textbf{A} & 7.2 & 9.4 & 8.3 \ \textbf{B} & 9.5 & 9.8 & 10.2 \ \textbf{C} & 9.8 & 9.8 & 9.9 \ \textbf{D} & 10.1 & 10.2 & 10.1 \ \hline \end{tabular}

The diameter of a ball is measured as $(5.26 \pm 0.02)\text{ cm}$.

What is the absolute uncertainty in the volume of the ball?

Two vectors, X and Y, are shown.

What are the directions of $X + Y$ and $X - Y$?

A ball is projected vertically downwards with an initial velocity of $20\text{ m}\,\text{s}^{-1}$. Air resistance is negligible.

What is the displacement from its initial position of the ball after a time of $1.5\text{ s}$?

A surveyor's device emits a pulse of light. The light is reflected from a wall $150\text{ m}$ away.

What is the total time taken for the pulse to travel from the device to the wall and then back to the device?

Which equation of uniformly accelerated motion can be derived using only the gradient of a velocity–time graph?

An object is projected horizontally from a table at time $t = 0$. The object falls in a uniform gravitational field. Air resistance is negligible.

Graphs P, Q, R and S are velocity–time graphs.

Which graphs represent the horizontal and vertical components of the velocity of the object?

What is always conserved in elastic collisions?

A firework travels vertically upwards in air. Gases are pushed vertically downwards from the firework.

Several forces that act on the firework and gases are shown.

Which forces are a Newton’s third law pair?

Two blocks K and L slide towards each other along a horizontal frictionless surface.

The diagram shows the momentum of the two blocks just before they collide.

During the collision, the blocks are in contact with each other for a time of $0.084\text{ s}$.

After the collision, the blocks separate and block L moves back along its original path with a momentum of $0.12\text{ kg}\,\text{m}\,\text{s}^{-1}$.

What is the magnitude of the average force exerted on block L by block K during the collision?

Leonardo da Vinci proposed a flying machine that would work like a screw to lift the pilot into the air. The ‘screw’ is rotated by the pilot.

The machine and the pilot together have a total mass of $120\text{ kg}$.

Which useful output power must the pilot provide to move vertically upwards at a constant speed of $2.5\text{ m}\,\text{s}^{-1}$?

Which row describes a pair of forces that forms a couple?

\begin{tabular}{|c|c|c|} \hline & direction of the forces & magnitude of the forces \ \hline \textbf{A} & opposite & different \ \textbf{B} & opposite & equal \ \textbf{C} & same & different \ \textbf{D} & same & equal \ \hline \end{tabular}

A uniform cylinder of weight $25.0\text{ N}$ is suspended from a newton meter.

The cylinder is fully submerged in water, as shown.

The reading on the newton meter is $10.0\text{ N}$.

The water is replaced by a liquid with a density 10% greater than the density of water. The cylinder remains fully submerged.

What is the new reading on the newton meter?

A student balances a $30\text{ cm}$ ruler on a fulcrum set at the $15\text{ cm}$ mark. She then places a $50\text{ g}$ mass on the $23\text{ cm}$ mark and a $20\text{ g}$ mass on the $11\text{ cm}$ mark, as shown.

Which mass should she place on the $7\text{ cm}$ mark to restore the balance?

A submarine is at a depth of $130\text{ m}$ below the surface of the sea.

The pressure on the submarine due to the sea water is $p$.

The submarine sinks to a depth of $260\text{ m}$ below the surface.

Assume that the density of sea water is constant.

What is the \textbf{difference} between the pressures on the submarine due to the sea water at the two depths?

An object is falling in a uniform gravitational field.

Which two quantities are sufficient to calculate the change in gravitational potential energy?

The points X, Y and Z are on a rough, horizontal surface.

A box P is pushed across the surface from X to Y and then from Y to Z.

The distance from X to Y is 3.0 m. The work done against the frictional force in moving the box from X to Y is 150 J.

The work done against the frictional force in moving the box from Y to Z is 200 J.

An identical box Q is pushed in a straight line from X to Z.

The magnitude of the frictional force between the boxes and the surface is constant.

How much extra work is done against the frictional force in moving P than Q?

The momentum of a car of mass $m$ increases from $p_1$ to $p_2$.

What is the increase in the kinetic energy of the car?

A parachutist is falling at constant (terminal) velocity.

Which statement is \textbf{not} correct?

A student investigates a spring. The variation of the length of the spring with the force applied to the spring is shown.

What is the spring constant of the spring?

The graph shows the variation with force of the extension of a wire.

The force is gradually increased to a maximum at Q and then gradually decreased to zero at R.

Which statement is correct?

A uniform metal wire of length $L$ and diameter $d$ has spring constant $k$.

What is the Young modulus of the metal?

An aircraft produces a sound at a frequency of $30.0\text{ Hz}$.

The speed of sound in air is $330\text{ m}\,\text{s}^{-1}$.

The aircraft is directly in front of the stationary observer and travels in a straight line towards or away from the observer.

The observer hears the sound from the aircraft at a frequency of $20.0\text{ Hz}$.

What is the speed and direction of the aircraft?

Which statement about longitudinal and transverse wave motion for a progressive wave is correct?

The diagram shows a progressive transverse wave on a stretched string at one instant in time.

One point on the string is labelled X.

Which point on the string is $270^\circ$ out of phase with X?

Which wavelength of electromagnetic radiation in free space could be green light?

Which group contains only waves that can be polarised?

One wave has an amplitude of $2A$. A second wave has an amplitude of $\frac{A}{2}$. The waves are otherwise identical.

The two waves travel in opposite directions and overlap.

What is the ratio $\frac{\text{maximum amplitude of combined wave}}{\text{minimum amplitude of combined wave}}$?

Light of wavelength $680\text{ nm}$ is incident normally on a diffraction grating with $450\text{ lines mm}^{-1}$.

What is the angle of diffraction of the second-order maximum in the diffraction pattern that is produced?

A hollow tube is closed at one end and open at the other.

A stationary sound wave of the lowest possible frequency, $820\text{ Hz}$, is produced in the tube.

The speed of sound in air is $330\text{ m s}^{-1}$.

What is the length of the tube?

Which expression gives the definition of resistance?

The graph shows the $I\text{--}V$ characteristic of an electrical component.

What is the component?

The diagram shows six identical resistors connected in a circuit.

In which branch of the circuit is the most power dissipated?

The diagram shows a circuit containing a thermistor, a fixed resistor and a battery.

The graph shows the $I-V$ characteristics of both components.

The battery has an e.m.f. of $12\text{ V}$ and negligible internal resistance.

What is the current in the fixed resistor?

Two resistors of resistances $R_1$ and $R_2$ are connected in parallel.

What is the combined resistance between X and Y?

A cell is connected in series with an ammeter and a variable resistor. A voltmeter is used to measure the p.d. across the variable resistor. The resistance of the variable resistor is varied, and the p.d. and the current are recorded.

The graph shows the variation with current of the p.d. across the variable resistor.

What is the internal resistance of the cell?

Which list contains only fundamental particles?

Which statement explains why alpha-particles have discrete energies, but beta-particles have a continuous range of energies?

A hadron consists of antiquarks that are all identical.

What is a possible value, in terms of the elementary charge $e$, for the charge on the hadron?