At what displacement from the mean position 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.

At what distance from the mean position is the kinetic energy in simple harmonic oscillator equal to potential energy?

Answer Expert Verified The distance x from its mean position may be specified as: x = A cos (wt+Ф), A is the amplitude and Ф is the phase constant, t is time. NOW, x = A /√2, So, when the body is at 1/√2 th of its amplitude then the PE = KE.

At which displacement from mean position Ke and PE of SHM are equal if?

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

At what distance from the mean position is the speed of a particle performing SHM half its maximum speed given path length of SHM 10cm?

Given. path length of S.H.M. = 10 cm. answer=since, path lenght is 10 cm,so A=5cm(half of path length).

What is the distance of a body from its mean position?

amplitude, in physics, the maximum displacement or distance moved by a point on a vibrating body or wave measured from its equilibrium position. For a longitudinal wave, such as a sound wave, amplitude is measured by the maximum displacement of a particle from its position of equilibrium.

At what displacement the energy of a simple harmonic oscillator?

Energy Changes in a Simple Harmonic Motion: When the object is at one of the extremes ( displacement equals amplitude), it is momentarily at rest, and the kinetic energy at this point is zero, while the potential energy is maximum (equal to the total energy).

At what distance from the mean position is the KE of a particle performing SHM 8 cm three times its PE?

At what distance from the mean position is the kinetic energy of a particle. performing S.H.M, of amplitude 8 cm, three times its potential energy? [Ans: 4 cm​

At what distance from the center of a path is the KE of a particle performing SHM of amplitude 10cm 3 times its PE?

At what distance is the K.E. of a particle performing S.H.M. of amplitude 10cm, three times its potential energy? (Ans. #5 cm) A particle of mass 0.05kg performs linear S.H.M. Its displacement from the mean position –

What is the displacement when Ke PE?

Explanation: A simple harmonic oscillator will have equal KE and PE when its displacement from its central point is 0.707 of its amplitude (maximum displacement.) During simple harmonic motion, the energy goes back and forth between potential and kinetic energy. When one is zero, the other is at its maximum.

At what displacement is PE and KE equal?

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

At what distance from mean position is the KE of a particle in SHM of 8cm three times of PE?

At which position the speed of a particle performing SHM is maximum?

mean position
The particle will have maximum velocity when it is at the mean position and the particle will have maximum acceleration when it is at its extreme positions.