The potential energy of a harmonic oscil...

The potential energy of a harmonic oscillation when is half way to its and end point is (where `E` it’s the total energy)

`(1)/(4)E`

`(1)/(2)E`

`(2)/(3)E`

`(1)/(8)E`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

OPTICS AND OPTICAL INSTRUMENTS
NEET PREVIOUS YEAR (YEARWISE + CHAPTERWISE)|Exercise All Questions|87 Videos
PHYSICAL WORLD AND MEASUREMENT
NEET PREVIOUS YEAR (YEARWISE + CHAPTERWISE)|Exercise Physical|41 Videos

Similar Questions

Explore conceptually related problems

If the potential energy of a harmonic oscillator of mass 2kg on its equilbrium position is 5 joules and the total energy is 9 joules when the amplitude is one meter the period of the oscillator ("in" sec) is-

The potential energy of a harmonic oscillator of mass 2 kg in its mean positioin is 5J. If its total energy is 9J and its amplitude is 0.01m, its period will be

The potential energy of a simple harmonic oscillator of mass 2 kg in its mean position is 5 J. If its total energy is 9 J and its amplitude is 0.01 m, its time period would be

The potential energy of a harmonic oscillator of mass 2kg in its equilibrium position is 5 joules. Its total energy is 9 joules and its amplitude is 1cm. Its time period will be

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

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 potential energy of a particle executing S H M is 25 J. when its displacement is half of amplitude. The total energy of the particle is

At which position the potential energy of a harmonic oscillator is maximum or minimum ?

The energy of a simple harmonic oscillator in the state of rest is 3 Joules. If its mean K.E. is 4 joules, its total energy will be :

The potential energy of a particle execuring S.H.M. is 2.5 J, when its displacement is half of amplitude. The total energy of the particle be

NEET PREVIOUS YEAR (YEARWISE + CHAPTERWISE)-OSCILLATIONS-Exercise

Two springs of spring constants K(1) and K(2) are joined in series. Th...
Text Solution
|
Which one of the following statement is true for the speed v and the a...
Text Solution
|
The potential energy of a harmonic oscillation when is half way to its...
Text Solution
|
A particle of mass m oscillates with simple harmonic motion between po...
Text Solution
|
Displacement between maximum potential energy position energy potentia...
Text Solution
|
When a dampled harmonic oscillator completes 100 oscillations, its amp...
Text Solution
|
A mass is suspended separately by two springs of spring constants k(1)...
Text Solution
|
In SHM restoring force is F = -kx, where k is force constant, x is dis...
Text Solution
|
Two simple harmonic motions given by, x = a sin (omega t+delta) and y ...
Text Solution
|
A pendulum is displaced to an angle theta from its equilibrium positio...
Text Solution
|
The time period of a simple pendulum is 2s. It its length is increased...
Text Solution
|
A mass m is vertically suspended from a spring of negligible mass, the...
Text Solution
|
Two simple pendulums of length 0.5 m and 20 m respectively are given s...
Text Solution
|
Two simple harmonic motions with the same frequency act on a particle ...
Text Solution
|
A hollow sphere is filled with water. It is hung by a long thread. As ...
Text Solution
|
A particle starts simple harmonic motion from the mean position. Its a...
Text Solution
|
A linear harmonic oscillator of force constant 2 xx 10^6 N//m and ampl...
Text Solution
|
In a simple harmonic motion, when the displacement is one-half the amp...
Text Solution
|
A particle is subjected to two mutually perpendicular simple harmonic ...
Text Solution
|
A body executes SHM with an amplitude a. At what displacement from the...
Text Solution
|