At what displacement Ke is equal to PE in SHM?

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

At what displacement kinetic energy and potential energy are equal for a body executing SHM?

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

At what displacement the kinetic and potential energies are equal given a amplitude?

Assertion: In a simpleharmonic motion the kinetic and potential energy becomes equal when the displacement is (1)/(sqrt(2)) time the amplitude Reason: is SHM kinetic energy is zero when potential energy is maximum.

What is the displacement of a particle executing SHM?

The displacement of a particle executing simple harmonic motion is given by y = A0 + A sinω t + B cosω t Then the amplitude of its oscillation is given by : SolveStudyTextbooks. >>Oscillations. >>Displacement in SHM. >>The displacement of a parti…

What is the average velocity of a particle executing SHM in one complete vibration?

zero
Therefore, the average velocity of a particle executing SHM in one complete vibration is zero.

Where is the kinetic energy of a particle executing SHM minimum?

Note: Kinetic energy is zero at the extreme position as velocity is zero and potential energy is maximum. Potential energy is minimum at the mean position which is also the lowest position.

When the maximum kinetic energy of a simple pendulum is K then what is its displacement?

The kinetic energy is maximum at mean position, therefore the displacement is zero.

Where do the kinetic energy KE of particle executing SHM have maximum?

$E = {K_0}$. The particle will have maximum kinetic energy when it is passing through the mean position of the oscillation. At this position, the particle will only have kinetic energy and no potential energy since the particle is at the mean position.

Where is the kinetic energy of a particle executing simple harmonic motion minimum and maximum?

In basic harmonic motion, the speed and displacement of the target are zero at an extreme location. Note: Kinetic energy is zero at the extreme position as velocity is zero and potential energy is maximum. Potential energy is minimum at the mean position which is also the lowest position.