Embibe Experts Solutions for Chapter: Oscillations, Exercise 2: Level 2
Embibe Experts Physics Solutions for Exercise - Embibe Experts Solutions for Chapter: Oscillations, Exercise 2: Level 2
Attempt the practice questions on Chapter 10: Oscillations, Exercise 2: Level 2 with hints and solutions to strengthen your understanding. Physics Crash Course NEET solutions are prepared by Experienced Embibe Experts.
Questions from Embibe Experts Solutions for Chapter: Oscillations, Exercise 2: Level 2 with Hints & Solutions
The weight suspended from a spring oscillates up and down. The acceleration of weight will be zero at

When a body is in , then match the following.
Velocity is maximum | Acceleration is maximum | ||
is of total energy | At mean position | ||
is of total energy | At half of the amplitude | ||
Acceleration is maximum | At times the amplitude |

One end of a spring of force constant is fixed to a vertical wall and the other to a block of mass resting on a smooth horizontal surface. There is another wall at a distance , from the block. The spring is then compressed by and released. The time taken by the block to strike the other wall is

A simple harmonic oscillator of frequency has a phase of radian. By how much should the origin be shifted in time so as to make the phase of the oscillator vanish. (time in seconds).

A particle of mass is executing simple harmonic motion of amplitude . When the particle passes through the mean position, its kinetic energy is . If the initial phase is the equation of its motion is (Assume, as the position of the particle at time )

Two clocks and are synchronized to show the same time on earth. Clock is based on oscillations of spring and clock is based on a pendulum motion. If these two clocks are taken to the surface of the moon, then

The amplitude of a damped oscillator decreases to times its original magnitude in . In another it will decrease to times its original magnitude, then is equal to

The decrease in amplitude with time of an under damped oscillator is
