CUET Physics Question Paper 2025 June 3 (Available)- Download Answer Key and Solution PDF

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) \( \sqrt{r g \sin \theta} \)