It's faster at sea level and slower at the top of a mountain.
As the force of gravity increases the period would decrease. So shortest period on the sun (if you can keep it intact), then sea level, then mountain top and then moon.
ts period will become sqrt(2) times as long.
time period of simple pendulum is dirctly proportional to sqare root of length...
multiply the length of the pendulum by 4, the period doubles. the period is proportional to the square of the pendulum length.
The period increases - by a factor of sqrt(2).
Normally the acceleration of gravity is not a factor in the period of a simple pendulum because it does not change on Earth, but if it were to be put on another celestial body the period would change. As gravity increases the period is shorter and as the gravity is less the period is longer.
As the force of gravity increases the period would decrease. So shortest period on the sun (if you can keep it intact), then sea level, then mountain top and then moon.
ts period will become sqrt(2) times as long.
Compound pendulum is a physical pendulum whereas a simple pendulum is ideal pendulum. The difference is that in simple pendulum centre of mass and centre of oscillation are at the same distance.
The period increases as the square root of the length.
time period of simple pendulum is dirctly proportional to sqare root of length...
For a simple pendulum: Period = 6.3437 (rounded) seconds
The period increases - by a factor of sqrt(2).
multiply the length of the pendulum by 4, the period doubles. the period is proportional to the square of the pendulum length.
The PERIOD of a Simple Pendulum is affected by its LENGTH, and NOT by its Mass or the amplitude of its swing. So, in your case, the Period of the Pendulum's swing would remain UNCHANGED!
The period is directly proportional to the square root of the length.
no it doesnt affect the period of pendulum. the formulea that we know for simple pendulum is T = 2pie root (L/g)