Want this question answered?
If the length of a pendulum is increased, the pendulum will take longer to complete a swing, and the clock will slow down. Shortening the pendulum will speed up the clock.
A shorter pendulum has a shorter period. A longer pendulum has a longer period.
A longer pendulum has a longer period. A more massive pendulum has a longer period.
If you make the simplifying assumption that everything except the bob is massless, then the mass of the bob has no effect on the period.
If you'll do some careful measurements, you'll find that it doesn't happen that way.The period of a pendulum depends on its length, but not on how far you pull it to start it swinging.
time period of simple pendulum is dirctly proportional to sqare root of length...
If the length of a pendulum is increased, the pendulum will take longer to complete a swing, and the clock will slow down. Shortening the pendulum will speed up the clock.
A shorter pendulum has a shorter period. A longer pendulum has a longer period.
A longer pendulum has a longer period. A more massive pendulum has a longer period.
If you make the simplifying assumption that everything except the bob is massless, then the mass of the bob has no effect on the period.
If you'll do some careful measurements, you'll find that it doesn't happen that way.The period of a pendulum depends on its length, but not on how far you pull it to start it swinging.
A longer pendulum has a longer period.
Height does not affect the period of a pendulum.
the longer you make the pendulum arm the longer it will take to perform its swing,the same thing would happen if you only increased the weight on the end of the arm.
The period of a pendulum is affected by the angle created by the swing of the pendulum, the length of the attachment to the mass, and the weight of the mass on the end of the pendulum.
multiply the length of the pendulum by 4, the period doubles. the period is proportional to the square of the pendulum length.
Increase the length of the pendulum