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Air resistance.

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12y ago

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Does a pendulum ever stop swinging?

Yes, a pendulum will eventually stop swinging due to factors such as air resistance and friction, which gradually slow down its motion.


Why does a pendulum eventually slow down and stop swinging?

A pendulum slows down and stops swinging due to air resistance and friction at the pivot point, which gradually sap its kinetic energy. This energy loss leads to a decrease in the pendulum's amplitude and eventually causes it to come to a halt.


Why would a pendulum eventually stop swinging?

A pendulum stops swinging due to various factors such as air resistance, friction at the pivot point, and loss of energy through heat. Over time, these forces gradually slow down the pendulum's motion until it eventually comes to a stop.


What factors will cause a pendulum to slow down and eventually stop?

Friction between the pendulum and the air or the supporting point, as well as friction in the pendulum's pivot point, can cause it to slow down and stop. Additionally, if the pendulum loses energy due to collisions or interactions with other objects, it will gradually slow down and eventually come to a stop.


What causes a pendulum to slow down and stop swinging?

Air resistance.


Why does the bob of a swinging pendulum comes to rest after sometime?

The pendulum bob comes to rest due to air resistance and friction in the pivot point, which gradually slows down its motion. Additionally, energy is transferred from kinetic energy to other forms of energy like heat, causing the pendulum to eventually stop swinging.


Why does the pendalum stop?

Movement energy is gradually wasted, that is, converted to other energy forms due to friction.


Can friction decrease motion?

Yes, friction can decrease motion by acting in the opposite direction to the object's motion, causing it to slow down or come to a stop. This is known as kinetic friction, which opposes the relative motion of two surfaces in contact.


Why does a pendulum set in motion eventually stop?

Because of both air resistance and gravity that pulls the pendulum down.


Swinging pendulum comes to rest is it violation of mechanical energy?

Conservation of mechanical energy is only an approximation of reality. There is friction caused by the resistance of air as the pendulum is swinging, gradually reducing its speed, therefore its kinetic energy. As a result, mechanical energy is not conserved. At school, however, in most physics problems, the question or your instructor will most likely tell you to disregard this friction, because its expression only complicates your calculations.


Please give two examples of 'oscillation'?

A clock pendulum swinging back and forth. A weight on a spring moving up and down.


What is the restoring force in a swinging pendulum?

The string that the 'bob' hangs from is a fixed length. So when the bob is off center and over to one side, it must be a little higher than when it's hanging straight down. The restoring force is the force of gravity that pulls it back down to the center.