Physics, asked by Akanshasingh3196, 1 year ago

For a simple harmonic oscillator the potential energy is equal to kinetic energy

Answers

Answered by taibak35
1

Answer

The total energy in simple harmonic motion is the sum of its potential energy and kinetic energy. ... As 2 , a2 are constants, the total energy in the simple harmonic motion of a particle performing simple harmonic motion remains constant. Therefore, it is independent of displacement x.

Answered by shilpa85475
0

Simple harmonic oscillator potential equal to kinetic energy:

  • A simple harmonic oscillator, a force that travels between the kinetic energy of a mass stored in the spring.
  • In the SHM of the mass and spring system, there is no dissipation power, so the total power is the total potential energy and kinetic energy.
  • Complete power is a sum of kinetic energy and flexible harmonic oscillator flexibility.
  • The full power of the oscillator remains constant when there is no collision.
  • When one type of energy decreases, the other grows to maintain full strength.
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