Yes.
Period proportional to (Length)-2 is the fundamental property of the pendulum.
The formula for the Period (1 complete swing), T, for a pendulum of length L is:
T = 2*pi sqrt (L/g)
(Oh for a library of symbols to avoid computer-code abbreviations!)
T is in seconds,
L in metres,
g, the acceleration due to gravity, = 9.8m/s2
So for a given length, it is easy to work out the number of complete swings in 1 minute.
Yes, because there might be a weight difference. also, it depends on how fast you make the string swing. for more info. better to read more about it or make some research....
T=2*pie*(l/g)0.5
i.e. the time period pf pendulum directly proportional to square root of the length of pendulum.
The formula for the period of a pendulum is:
T=2π√(L/g)
Where
T= period
L= The length of the string
g= acceleration of gravity (9.8 m/s on earth).
because
id
You can affect the pendulum to move down or up and it will be will might be 11 or 12 seconds because of the length and how you want the pendulum for it to move.
-- friction in the pivot -- air moving past the pendulum -- the effective length of the pendulum -- the local acceleration of gravity
What you want is a pendulum with a frequency of 1/2 Hz. It swings left for 1 second,then right for 1 second, ticks once in each direction, and completes its cycle in exactly2 seconds.The length of such a pendulum technically depends on the acceleration due to gravityin the place where it's swinging. In fact, pendulum arrangements are used to measurethe local value of gravity.A good representative value for the length of the "seconds pendulum" is 0.994 meter.
The pendulum length is the distance from the point of suspension to the center of mass of a pendulum. It affects the period of the pendulum's swing, with longer lengths typically resulting in longer periods. A longer pendulum length will generally have a slower swing compared to a shorter length.
it doesnt affect the amplitude as the mass and length remain constant
You can affect the pendulum to move down or up and it will be will might be 11 or 12 seconds because of the length and how you want the pendulum for it to move.
If it is a short pendulum, then the leg or whatever you call it has a smaller distance to cover, and therefore can swing faster than a longer pendulum.
yes
known to be seconds pendulum,the length would be almost 1m when acceleration due to gravity is 9.8m/s2
The length of the pendulum, the angular displacement of the pendulum and the force of gravity. The displacement can have a significant effect if it is not through a small angle.
Approx 80.5 centimetres.
A longer pendulum will have a smaller frequency than a shorter pendulum.
5.94 m
For a simple pendulum: Period = 6.3437 (rounded) seconds
This pendulum, which is 2.24m in length, would have a period of 7.36 seconds on the moon.
A complete back and forth vibration, also known as a full oscillation, for a pendulum with a period of 1.5 seconds would take a total time of 3 seconds. This time includes both the movement to one side and back to the starting point.
2.01 seconds.