For a simple pendulum, consisting of a heavy mass suspended by a string with virtually no mass, and a small angle of oscillation, only the length of the pendulum and the force of gravity affect its period. t = 2*pi*sqrt(l/g) where t = time, l = length and g = acceleration due to gravity.
A longer pendulum has a longer period.
Height does not affect the period of a pendulum.
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
Its length.
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.
A longer pendulum has a longer period.
Height does not affect the period of a pendulum.
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
The period increases as the square root of the length.
The period of a 0.85 meter long pendulum is 1.79 seconds.
The length of the pendulum and the gravitational pull.
no it doesnt affect the period of pendulum. the formulea that we know for simple pendulum is T = 2pie root (L/g)