Time period is directly proportional to the square root of the length
So as we increase the length four times then period would increase by ./4 times ie 2 times.
the time period of a pendulum is proportional to the square root of length.if the length of the pendulum is increased the time period of the pendulum also gets increased. we know the formula for the time period , from there we can prove that the time period of a pendulum is directly proportional to the effective length of the pendulum. T=2 pi (l\g)^1\2 or, T isproportionalto (l/g)^1/2 or, T is proportional to square root of the effective length.
A longer pendulum has a longer period.
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 length of the pendulum and the gravitational pull.
the time period of a pendulum is proportional to the square root of length.if the length of the pendulum is increased the time period of the pendulum also gets increased. we know the formula for the time period , from there we can prove that the time period of a pendulum is directly proportional to the effective length of the pendulum. T=2 pi (l\g)^1\2 or, T isproportionalto (l/g)^1/2 or, T is proportional to square root of the effective length.
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.
Period of pendulum depends only on its length that too directly and acceleration due to gravity at that place, but inversely But it is independent of the mass of the bob So as length increases its period increases.
When the length of a pendulum is increased, by any amount, its Time Period increases. i.e. it moves more slowly. Conversely, if the length is decreased, by any amount, its Time Period decreases. i.e. it moves faster.
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.
pendulum length (L)=1.8081061073513foot pendulum length (L)=0.55111074152067meter
You mean the length? We can derive an expression for the period of oscillation as T = 2pi ./(l/g) Here l is the length of the pendulum. So as length is increased by 4 times then the period would increase by 2 times.
multiply the length of the pendulum by 4, the period doubles. the period is proportional to the square of the pendulum length.
A longer pendulum has a longer period. A more massive pendulum has a longer period.
Increase the length of the pendulum