For a linear harmonic oscillator, its po...

For a linear harmonic oscillator, its potential energy, kinetic energy and total energy given by `E_(P), K_(K) and E_(T)` respectively. Its maximum acceleration is given by

`sqrt((2E_(P))/(m))`

`sqrt((2E_(K))/(m))`

`sqrt((2E)/(mA))`

`(2E)/(mA)`

Text Solution

Verified by Experts

The correct Answer is:

In a S.H.M maximum acceleration `=omega^(2)A`
and Total energy `E=(1)/(2)m omega^(2)A^(2)=(1)/(2)mA (omega^(2)A)`

Topper's Solved these Questions

MAGNETISM
MARVEL PUBLICATION|Exercise TEST YOUR GRASP|15 Videos
ROTATIONAL MOTION
MARVEL PUBLICATION|Exercise TEST YOUR GRASP - 3|8 Videos

Similar Questions

Explore conceptually related problems

For simple Harmonic Oscillator, the potential energy is equal to kinetic energy

For Simple Harmonic Oscillator, the potential energy is equal is equal to kinetic energy

The potential energies of a linear harmonic oscillator at the mean position, extreme positions and an intermediate position are 0, 0.5J and 0.3 J respectively. Its total energy is given by

If total energy of the same electron is E, then what would be its kinetic energy and potential energy .

A linear harmonic oscillator has a total mechanical energy of 200 J . Potential energy of it at mean position is 50J . Find (i) the maximum kinetic energy, (ii)the minimum potential energy, (iii) the potential energy at extreme positions.

If the total energy of a simple harmonic oscillator is E, then its potential energy, when it is halfway to its endpoint will be

The magnitude of acceleration of a simple harmonic oscillator when its kinetic energy and potential energy are same, if amplitude of acceleration is a_0 is

When the displacement of a simple harmonic oscillator is half of its amplitude, its potential energy is 3J. Its total energy is

The P.E. of a linear harmonic oscillator is 4J, when its displacment is equal to half its amplitude. The total energy of the particle is

MARVEL PUBLICATION-OSCILLATIONS-MCQ

The displacement of a particle executiing a linear S.H.M. is given by ...
Text Solution
|
A horizontal platform with a small object placed on it executes a line...
Text Solution
|
A particle is executing a linear S.H.M. Its velocity at a dis"tan"ce x...
Text Solution
|
The periodic time of a particle performing a linear S.H.M. is 12 sec. ...
Text Solution
|
A particle exectues a linear S.H.M. of amplitude 2 cm. When it is at 1...
Text Solution
|
A particle performs a S.H.M. and starts from the mean position. The gr...
Text Solution
|
The displacement of a particle performing S.H.M. is given by x=10 "sin...
Text Solution
|
The phase of a particle performing a linear S.H.M. increases by (pi)/(...
Text Solution
|
What is the relation between the potential energy and total energy (E ...
Text Solution
|
When the displacement of a simple harmonic oscillator is half of its a...
Text Solution
|
For a linear harmonic oscillator, its potential energy, kinetic energy...
Text Solution
|
The length of a second's pendulum on the surface of the earth, where g...
Text Solution
|
A simple pendulum is suspended from the ceilling of a left. When the l...
Text Solution
|
What is the relation between the period T(s) and T(e ) of a simple pen...
Text Solution
|
A simple pendulum attached to the ceiling of a stationary lift has a t...
Text Solution
|
The amplitude of a damped oscillator becomes (1)/(27)^(th) of its init...
Text Solution
|
A simple pendulum is vibrating in an evacuated chamber, it will oscill...
Text Solution
|
Two identical springs S(1) and S(2) are joined as shown in the figure....
Text Solution
|
A toy used for firing a ball vertically consists of a vertical spring ...
Text Solution
|
displacement versus time curve for a particle executing SHM is is as s...
Text Solution
|