Pendulum: Energy is conserved but not momentum

AI Thread Summary
In an ideal pendulum, energy is conserved as potential energy transforms into kinetic energy and vice versa, while momentum is not conserved due to the influence of external forces like gravity. This indicates that the pendulum is not an isolated system, yet energy remains conserved because gravity is a conservative force dependent on position. The discussion highlights that when the pendulum moves, energy is transferred to and from the gravitational field, illustrating how external forces can influence energy without altering its conservation. The analogy of money in a bank account is used to explain that energy stored in the gravitational field still belongs to the pendulum. Overall, while momentum fluctuates, the energy conservation principle holds true under these conditions.
greypilgrim
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Hi.

In an ideal pendulum, energy is conserved. Potential energy gets transformed to kinetic energy and vice versa. However, momentum is not conserved.

The latter means that the pendulum is not an isolated system, which is plausible, since gravity is an external force. But why is energy conserved then? Under what conditions does an external force not change the energy in a system?
 
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greypilgrim said:
Under what conditions does an external force not change the energy in a system?
When the force is conservative, i.e. dependent on position only. (This may sound like a tautology, but it is not.) Gravity is a conservative force.
 
In addition the force also must have a potential to be conservative in the usual sense. The Langrangian/Hamiltonian is not explicitly time-dependent and thus energy is conserved (Noether's theorem applied to time-translation invariance).
 
I would say that energy is not conserved. The Earth not only gains and loses some momentum but also some kinetic energy. The momentum is significant but the energy is not. Effectively, therefore, energy of the pendulum appears to be conserved.

Consider also an elastic collision between a ball and the ground. Momentum of the ball is clearly not conserved but kinetic energy appears to be. Can you explain why that is?
 
We can say that the potentian energy of the pendulum is stored in the gravitational field.
When the pendulum is moving upwards, energy is leaving the pendulum and stored in the gravitational field. This is due to the work done by the gravitational force. When the pendulum is moving downwards, energy is leaving the gravitational field and put into the pendulum. Again due to the work done by the gravitational force.
In this sense we can say that the external force changes the energy of the pendulum all the time.
 
We can add that when energy is stored in the gravitational field, it is still belongs to the the pendulum. It is like having money in the bank and not in your wallet. Your money in the bank is still your money.
 

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