Oscillation JEE Main Questions 2025:
Oscillation chapter in physics forms the fundamental part of mechanics and waves which are most crucial with respect to the JEE Mains exams. Solving JEE Main 2025 questions from oscillation will assist candidates in grasping core topics of physics like waves and vibrations. Moreover, Questions from Oscillation for
JEE Main 2025
are typically straightforward if the basics are thoroughly understood which ultimately allows candidates to easily score marks in the exam. Students who are preparing for the JEE Mains 2025 exam can check this article on Oscillation JEE Main Questions 2025 for extensive information.
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JEE Main Previous Year Question Paper
JEE Main 2025 Oscillation Important Questions - Numerical Based
Candidates can check the following questions along with their answers in this section.
Q.No | Questions | Options | Answer |
---|---|---|---|
1 | A particle executes simple harmonic motion (SHM) with an amplitude of 5 cm and a period of 2 seconds. What is the maximum velocity of the particle? | a) 15.7 cm/s b) 10 cm/s c) 5 cm/s d) 2.5 cm/s | a) 15.7 cm/s |
2 | A body of mass 1 kg is attached to a spring of spring constant 100 N / m and undergoes SHM. What is the maximum potential energy stored in the spring? | a) 1 J b) 2 J c) 5 J d) 10 J | c) 5 J |
3 | A particle executing SHM has a velocity of 3 m/s when it is at a distance of 2 m from the mean position. If the amplitude of oscillation is 5 m, what is its angular frequency? | a) 1 rad/s b) 2 rad/s c) 1.5 rad/s d) 2.5 rad/s | a) 1 rad/s |
4 | The acceleration of a particle performing SHM is 4 m/s2 when its displacement is 2 m. What is the angular frequency of oscillation? | a) 2 rad/s b) 1 rad/s c) 3 rad/s d) 4 rad/s | b) 1 rad/s |
5 | The total energy of a particle executing SHM is 200 J. If its potential energy at mean position is 80 J, what is its kinetic energy at the extreme position? | a) 0 J b) 80 J c) 120 J d) 200 J | a) 0 J |
6 | A mass of 2 kg executes SHM with a period of 3 s. What is the force constant of the spring? | a) 4.39 N/m b)5.52 N/m c)8.77 N/m d) 10 N/m | c) 8.77 N/m |
7 | A pendulum has a length of 1 m. The acceleration due to gravity is 9.8m/s2. What is the period of the pendulum? | a) 1 s b) 2 s c) 2π s d) 4 s | b) 2 s |
8 | A spring-mass system with a spring constant of 100 N/m oscillates with a period of 2 s. What is the mass of the system? | a) 0.1 kg b) 1 kg c) 2 kg d) 4 kg | d) 4 kg |
9 | A spring of force constant k = 200 N/m is compressed by 5 cm. What is the potential energy stored in the spring? | a) 0.5 J b) 1 J c) 0.25 J d) 2.5 J | c) 0.25 J |
10 | A particle executes SHM with an amplitude of 4 cm and a frequency of 5 Hz. The acceleration of the particle at a displacement of 2 cm is: | a) 400 cm/s² b) 200 cm/s² c) 100 cm/s² d) 50 cm/s² | a) 400 cm/s² |
11 | The acceleration of a particle performing SHM is 4m/s2 when its displacement is 2 m. What is the angular frequency of oscillation? | a) 2 rad/s b) 1 rad/s c) 3 rad/s d) 4 rad/s | b) 1 rad/s |
12 | The length of a simple pendulum is increased by 44%. By what percentage does its period increase? | a) 10% b) 20% c) 30% d) 50% | b) 20% |
13 | The kinetic energy of a body executing SHM is 16 J when it is at a displacement of 1 cm from its mean position. If the amplitude of oscillation is 2 cm, what is the total energy of the body? | a) 64 J b) 16 J c) 8 J d) 32 J | d) 32 J |
14 | A mass-spring system oscillates with a period of 3 s. If the mass is doubled, what will be the new period of oscillation? | a) 3 √2 s b) 6 s c) 3 s d) 6 √2 s | a) 3 √2 s |
Important Theoretical Questions from Oscillation for JEE Mains 2025
Students can also check the following set of Theoretical Oscillation JEE Main Questions 2025.
Q No | Questions | Options | Correct Answers |
---|---|---|---|
1 | In a damped harmonic oscillator, the amplitude decreases exponentially with time. The damping factor β determines | A) The frequency of oscillation B) The time period of oscillation C) The rate at which the amplitude decreases D) The maximum amplitude | C) The rate at which the amplitude decreases |
2 | The phase difference between the displacement and acceleration of a particle in SHM is | A) 0 B) π / 2 C) π D) 3π / 2 | C) π |
3 | A simple pendulum has a time period T. If its length is increased by 4 times, its new time period will be: | A) T B) 2T C) 4T D) T/2 | B) 2T |
4 | In a mass-spring system, the total mechanical energy in SHM is: | A) Constant and independent of amplitude B) Varies with displacement C) Proportional to the amplitude squared D) Zero at the mean position | C) Proportional to the amplitude squared. |
5 | A body is undergoing SHM. At a point where its kinetic energy is half of its total energy, the displacement from the mean position is | A) A B) A / 2 C) A / √2 D) A / √3 | C) A / √2 |
6 | In a simple harmonic oscillator, the velocity is maximum at | A) Mean position B) Extreme position C) Halfway between mean and extreme positions D) At the amplitude of oscillation | A) Mean position |
7 | If the amplitude of oscillation of a particle in SHM is doubled, the total energy of the system will | A) Remain the same B) Double C) Quadruple D) Increase eight times | C) Quadruple |
8 | The potential energy of a particle executing SHM is maximum when | A) Displacement is zero B) Displacement is maximum C) Velocity is maximum D) Acceleration is zero | B) Displacement is maximum |
9 | The total energy of a particle executing SHM is: | A) Proportional to displacement B) Proportional to amplitude C) Proportional to the square of the amplitude D) Independent of amplitude | C) Proportional to the square of the amplitude |
10 | The time period of a simple pendulum is | A) Independent of amplitude B) Proportional to the square root of the length C) Inversely proportional to the square root of the length D) Dependent on the mass of the bob | B) Proportional to the square root of the length |
11 | The potential energy of a particle executing SHM is maximum at | A) Mean position B) Extreme position C) Halfway between mean and extreme positions D) None of the above | B) Extreme position |
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