When the displacement of a particle executing SHM is half of its amplitude the ratio of its kinetic energy to potential energy is?

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(d) 1/4.

When the displacement is half of the amplitude?

Solution : Kinetic energy is equal to three fourth `(i.e.(3)/(4))` of the total energy, when the displacement is one-half of its amplitude.

When displacement of particle in SHM is half of the amplitude?

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

At what displacement of a SHM is the energy half kinetic and half potential?

Answer: At what displacement from the mean position its energy is half kinetic and half potential. when Kinetic energy is maximum potential energy is zero. when kinetic energy is half of its maximum, potential energy will become other half and both are equal.

When the displacement in SHM is half of the amplitude what fraction of the total energy is kinetic?

In a simple harmonic motion, when the displacement is one-half the amplitude. what fraction of the total energy is kinetic? (d) 1/4

When the displacement is half the amplitude the ratio of kinetic energy to the total energy is?

u21d2EU41.

When the displacement is half of the amplitude then?

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

What is half the amplitude?

The total energy of the body executing S.H.M. is E. The kinetic energy of the body, when the displacement is half of the amplitude is E 3 E 4 u0332 .

When the displacement of a particle executing SHM is half its amplitude?

Semi-amplitude means half of the peak-to-peak amplitude. The majority of scientific literature employs the term amplitude or peak amplitude to mean semi-amplitude.

When the displacement of a particle executing SHM is half its amplitude the ratio of its kinetic energy to potential energy is?

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

When the displacement of a particle executing SHM is half of its amplitude?

When the displacement of the particle is half of its amplitude at that point the kinetic energy of the particle will be : E 3.

When the displacement of the particle is half of it amplitude then?

Solution : Kinetic energy is equal to three fourth `(i.e.(3)/(4))` of the total energy, when the displacement is one-half of its amplitude.

When the displacement of a particle executing SHM is half its amplitude the ratio of KE and PE?

u21d2EU41.

When the displacement in SHM is one-half the amplitude A what fraction of the total energy is a kinetic energy?

what fraction of the total energy is kinetic? In a simple harmonic motion, when the displacement is one-half the amplitude. what fraction of the total energy is kinetic? (d) 1/4

At what displacement would the energy be half kinetic and half potential?

Answer: At what displacement from the mean position its energy is half kinetic and half potential. when Kinetic energy is maximum potential energy is zero. when kinetic energy is half of its maximum, potential energy will become other half and both are equal.

At what distance from the mean position of SHM The energy is half kinetic and half potential energy?

In SHM, kinetic energy is maximum at mean position and zero at extreme position, so the Kinetic energy becomes half of its max value at half of its amplitude i.e. between mean extreme position

At what displacement the kinetic and potential energies are equal in SHM?

In a SHM kinetic and potential energies becomes equal when the displacement is 1/u221a(2) times the amplitude.

When the displacement in SHM is half the amplitude the ratio of potential energy?

u21d2EU41.

When displacement is half of amplitude what fraction of total energy is kinetic and what fraction is potential in SHM?

what fraction of the total energy is kinetic? In a simple harmonic motion, when the displacement is one-half the amplitude. what fraction of the total energy is kinetic? (d) 1/4

When the displacement is half of the amplitude then what fraction of total energy of a simple harmonic oscillator is kinetic a 3/4th B 2 7th C 5 7th D 2 9th?

u21d2EU41.

What fraction of total energy is potential energy when displacement is one-half of its amplitude?

2/9th.

When the displacement is half the amplitude the ratio of potential energy of the total energy is?

u21d2EU41.

When the displacement is half of the amplitude then when fraction of the total energy of a simple harmonic oscillator is kinetic?

what fraction of the total energy is kinetic? In a simple harmonic motion, when the displacement is one-half the amplitude. what fraction of the total energy is kinetic? (d) 1/4

At what displacement is the energy half kinetic and half potential?

The total energy of the body executing S.H.M. is E. The kinetic energy of the body, when the displacement is half of the amplitude is E 3 E 4 u0332 .

When the displacement is half of the amplitude of a simple pendulum then the fraction of total energy which is kinetic is?

Solution : Kinetic energy is equal to three fourth `(i.e.(3)/(4))` of the total energy, when the displacement is one-half of its amplitude.