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When a force is applied on a string, a restoring force is developed in it in opposite direction of external force.This restoring force of string is tension.
No. The force keeping a ball on a string moving in a circle is centripetal force, i.e. force pulling the ball to the center of the circle.
to see what happen in the experiment
No, the force in tension of a string is not conservative. The only non-conservative force acting is the tension force, but it acts perpendicular to the path of the object at every instant, and so it does zero work.
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Gravity affects the string by applying a force (dm).(g) on every particle of mass dm. Thereby, it produces a damping effect on the string.
The tension in any part of the string is equal to the force that pulls the string at the ends (assuming for simplicity that the string is basically weightless).
When a force is applied on a string, a restoring force is developed in it in opposite direction of external force.This restoring force of string is tension.
unless the string is broken up,the force of pulling will be applied along the continuous part of the string when the string is in full stretched condition.
It depends on the experiment... but the possible constants for such an experiment could be...The mass of the weight at the end of the string (which is independent from the SHM)The length of the stringThe height of the weight when released (not necessarily)Then given that you don't need to put on would be the gravitational force of acceleration 9.81 ms-2, etc.
the force apply on string it vibrate this vibration is called tension of the string
Centripetal force is the force necessary to apply to an object to get it to orbit; like spinning a rock on a string. It you are holding on to the string, you will feel a centrifugal force.
No. The force keeping a ball on a string moving in a circle is centripetal force, i.e. force pulling the ball to the center of the circle.
to see what happen in the experiment
It depends on the experiment... but the possible constants for such an experiment could be...The mass of the weight at the end of the string (which is independent from the SHM)The length of the stringThe height of the weight when released (not necessarily)Then given that you don't need to put on would be the gravitational force of acceleration 9.81 ms-2, etc.
You mean ball tied to a string and the string is held by the fingers or hand? Then that force is named as centripetal force. ie centre seeking force.
No, the force in tension of a string is not conservative. The only non-conservative force acting is the tension force, but it acts perpendicular to the path of the object at every instant, and so it does zero work.