The pendulum will lose energy, due to friction.
A swinging pendulum will eventually stop because of friction with the air.
pendulum's slow down during summers because the pendulum expands and it moves faster during winters because the pendulum contracts
By shorten the string of the pendulum
The pendulum is not a reliable time standard mostly because of friction and gravity. To be a reliable time standard, a pendulum would need to form a continuous arc that did not deviate over time. Gravity is always trying to get the pendulum to stop and friction causes the pendulum's fulcrum to resit continued movement. Eventually, a pendulum will stop moving and remain stationary unless acted upon by an external force.
Gravity doesn't make a pendulum stop. Air resistance and friction in the pivot are the things that rob its energy. If you could eliminate those and leave it all up to gravity, the pendulum would never stop.
The pendulum will take more time in air to stop completely in comparision with water
The pendulum will lose energy, due to friction.
A swinging pendulum will eventually stop because of friction with the air.
pendulum's slow down during summers because the pendulum expands and it moves faster during winters because the pendulum contracts
By shorten the string of the pendulum
Because of both air resistance and gravity that pulls the pendulum down.
The pendulum is not a reliable time standard mostly because of friction and gravity. To be a reliable time standard, a pendulum would need to form a continuous arc that did not deviate over time. Gravity is always trying to get the pendulum to stop and friction causes the pendulum's fulcrum to resit continued movement. Eventually, a pendulum will stop moving and remain stationary unless acted upon by an external force.
yes. because of friction and gravity
Air resistance.
it will not stop forever
You make a pendulum with a basbeall attached to an end of the string. you are testing the periods and oscillation movements of the pendulum.