It is converted into heat in the string and the environment.
The energy is dissipated. That means it is absorbed, and somehow converted to other forms of energy. Typically, much of this dissipated energy gets converted into heat.
Turned into heat (secondary to friction).
Kinetic energy and then to heat.
Any object has maximum gravitational potential energy when it is at its highest position.
The vibration in the string of harp . When strike on the string then produce sounds.
check my answer
match it with a piece of string then measure the string
The energy gets absorbed by the string, and will be converted mainly to heat.
The energy gets absorbed by the string, and will be converted mainly to heat.
kinetic energy
kinetic energy
kinetic energy
A string under tension has potential energy, which will be liberated as kinetic energy should the string break or be released.
The energy is dissipated. That means it is absorbed, and somehow converted to other forms of energy. Typically, much of this dissipated energy gets converted into heat.
Kinetic energy and then to heat.
Into movement, i.e., kinetic energy.
It simply loses energy. There is no changing of energy. It is not changed into potential energy, because it has no potential to move anywhere. Potential energy is, for example, bringing a pendulum to close to its apex and typing it there with a string.
phiten
Before a yo yo is released, it has maximum potential energy and zero kinetic energy. As the yo yo goes down the string, its kinetic energy increases and it potential energy decreases. When the yo yo reaches the bottom of the string it has maximum kinetic energy and zero potential energy. As the yo yo goes back up the string, its kinetic energy decreases and potential energy increases until the yo yo reaches the top of the string, at which point kinetic energy is zero and potential energy is at its maximum.