CUET Physics Question Paper 2025 (Available)- Download Answer Key and Solution PDF

CUET Physics Questions June 3

Question 1:

A projectile is fired with an initial velocity \( u \) at an angle \( \theta \) to the horizontal. The time of flight is \( T \). What is the maximum height \( H \) reached by the projectile?

• (1) \( \dfrac{u^2 \sin^2 \theta}{2g} \)
• (2) \( \dfrac{u^2 \sin 2\theta}{2g} \)
• (3) \( \dfrac{u^2 \sin^2 \theta}{g} \)
• (4) \( \dfrac{u^2 \sin \theta}{2g} \)

Two point charges \( q_1 \) and \( q_2 \) are placed at a distance \( r \) in vacuum. The force between them is \( F \). If the distance is doubled and both charges are halved, what will be the new force?

• (1) \( \dfrac{F}{8} \)
• (2) \( \dfrac{F}{4} \)
• (3) \( \dfrac{F}{2} \)
• (4) \( \dfrac{F}{16} \)

In a circuit, if the resistance is doubled and the voltage is halved, what happens to the current flowing through the circuit?

• (1) Becomes half
• (2) Becomes quarter
• (3) Becomes double
• (4) Remains same

A convex lens forms an image at twice the distance of the object from the lens. What is the magnification?

• (1) 2
• (2) -2
• (3) 0.5
• (4) -0.5

The stopping potential for photoelectric emission from a metal surface is 2 V when light of wavelength 400 nm is incident. What will be the stopping potential for light of wavelength 300 nm? (Planck’s constant \( h = 6.63 \times 10^{-34} \) Js, speed of light \( c = 3 \times 10^8 \) m/s, charge of electron \( e = 1.6 \times 10^{-19} \) C)

• (1) 4 V
• (2) 6 V
• (3) 8 V
• (4) 10 V

In an adiabatic process, the work done by the gas is 500 J. What is the change in internal energy of the gas?

• (1) 0 J
• (2) +500 J
• (3) –500 J
• (4) Cannot be determined

A pendulum completes 20 oscillations in 40 seconds. What is its frequency?

• (1) 0.5 Hz
• (2) 2 Hz
• (3) 20 Hz
• (4) 40 Hz

A charged particle with charge \( q \) and velocity \( \vec{v} \) moves perpendicular to a magnetic field \( \vec{B} \). The radius of the circular path is \( r \). What is the expression for \( r \)?

• (1) \( \frac{mv}{qB} \)
• (2) \( \frac{qB}{m} \)
• (3) \( \frac{m}{qBv} \)
• (4) \( \frac{v}{mqB} \)

Which of the following physical quantities has the same dimensions as \( \dfrac{Force \times Time}{Mass} \)?

• (1) Velocity
• (2) Acceleration
• (3) Momentum
• (4) Impulse

A vehicle moves on a banked curve of radius \( r \) with banking angle \( \theta \). What is the speed \( v \) of the vehicle to avoid slipping without friction?

• (1) \( \sqrt{r g \tan \theta} \)
• (2) \( \sqrt{r g \cot \theta} \)
• (3) \( \sqrt{\dfrac{r g}{\tan \theta}} \)
• (4) \( \sqrt{r g \sin \theta} \)

CUET Physics 2025 Questions June 2

Question 1:

Two point charges \( +Q \) and \( -4Q \) are placed 60 cm apart. Where should a third charge be placed so that it experiences zero net force?

• (A) 15 cm from \( +Q \)
• (B) 20 cm from \( -4Q \)
• (C) 60 cm from \( +Q \)
• (D) 45 cm from \( -4Q \)

A disc of mass \( M \) and radius \( R \) is rolling without slipping with linear velocity \( v \). What is its total kinetic energy?

• (A) \( \frac{1}{2} Mv^2 \)
• (B) \( \frac{3}{4} Mv^2 \)
• (C) \( \frac{1}{4} Mv^2 \)
• (D) \( \frac{5}{6} Mv^2 \)

A block is resting on a rough horizontal surface. A force is applied horizontally, but the block does not move. What can be said about the frictional force acting on it?

• (A) It is zero
• (B) It is equal to the limiting friction
• (C) It is more than the applied force
• (D) It is equal to the applied force

If the temperature of an ideal gas is doubled at constant pressure, what happens to its volume?

• (A) It becomes half
• (B) It doubles
• (C) It becomes one-fourth
• (D) It remains unchanged

A 10-ohm resistor carries a current of 2 A. What is the power dissipated?

• (A) 5 W
• (B) 10 W
• (C) 20 W
• (D) 40 W

A wave travels along a string with a frequency of 50 Hz and wavelength of 2 m. What is its speed?

• (A) 25 m/s
• (B) 50 m/s
• (C) 100 m/s
• (D) 200 m/s

An object is placed 10 cm in front of a concave mirror of focal length 15 cm. The image formed is:

• (A) Virtual and enlarged
• (B) Real and enlarged
• (C) Virtual and diminished
• (D) Real and diminished

A current-carrying straight conductor produces a magnetic field. The direction of the field is given by:

• (A) Ampere’s law
• (B) Lenz’s law
• (C) Right-hand thumb rule
• (D) Faraday’s law

A body of mass 2 kg is raised to a height of 5 m. What is the potential energy gained? (Take \( g = 10 \, m/s^2 \))

• (A) 10 J
• (B) 50 J
• (C) 100 J
• (D) 150 J

If the velocity–time graph of a body is a straight line inclined to the time axis, the motion has:

• (A) Uniform velocity
• (B) Uniform acceleration
• (C) Variable acceleration
• (D) Zero acceleration

The value of acceleration due to gravity on the Moon is about \( \frac{1}{6} \) that on Earth. If an object weighs 60 N on Earth, its weight on the Moon is:

• (A) 10 N
• (B) 20 N
• (C) 30 N
• (D) 60 N

What is the amount of heat required to raise the temperature of 100 g of water from 30°C to 80°C? (Specific heat of water = 4.2 J/g°C)

• (A) 2,100 J
• (B) 12,600 J
• (C) 21,000 J
• (D) 42,000 J

Two like charges are placed 1 m apart in air. If the force between them is 9 N, and one charge is 1 C, what is the other charge? (Use \( k = 9 \times 10^9 \, Nm^2/C^2 \))

• (A) 1 C
• (B) 0.1 C
• (C) 0.01 C
• (D) \( 10^{-9} \, C \)

Two capacitors of 4 \(\mu\)F and 6 \(\mu\)F are connected in series. Their equivalent capacitance is:

• (A) 10 \(\mu\)F
• (B) 5 \(\mu\)F
• (C) 2.4 \(\mu\)F
• (D) 1.6 \(\mu\)F

In the Bohr model of hydrogen atom, the angular momentum of the electron is:

• (A) Quantized as multiples of \( h \)
• (B) Continuous
• (C) Quantized as multiples of \( \frac{h}{2\pi} \)
• (D) Equal to zero

Which of the following statements is \textbf{true} regarding static friction?

• (A) It always equals the maximum static friction.
• (B) It is always less than kinetic friction.
• (C) It adjusts up to a maximum value to prevent motion.
• (D) It acts only when the body is moving.

CUET Physics Exam Analysis

As per the previous years, 2024 - 2022, the CUET exam had 50 questions, out of which 40 were to be attempted. But in 2025, according to the revised CUET exam pattern, students are expected to attempt all 50 questions within the same time of 60 minutes; all the questions are compulsory to attempt.

In CUET 2025, the expected difficulty level of the CUET Physics will be Moderate to difficult, and this will result in a slightly lower CUET cutoff score. Check CUET Cutoff 2025 (Expected)

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