the period of oscillation of a simple pendulum of length `L` suspended from the roof of a vehicle which moves without friction down an inclined plane of inclination `prop`, is given by.

The period of oscillation of a simple pendulum of length L suspended from the roof of a vehicle which moves without frication down on inclined plane of inclination alpha = 60^(@) is given by pisqrt((XL)/(g)) then find X .

A simple pendulum of length l is suspended from the celing of a cart which is sliding without friction on as inclined plane of inclination theta . What will be the time period of the pendulum?

A simple pendulum of length l is suspended from the celing of a cart which is sliding without friction on as inclined plane of inclination theta . What will be the time period of the pendulum?

A simple pendulum with a bob of mass m is suspended from the roof of a car moving with horizontal acceleration a

A pendulum is suspended from the roof of a rall road car. When the car is moving on a circular track the pandulum inclines:

A pendulum is hanging from the ceiling of a trolley which moves down a smooth inclined plane. Then

A simple pendulum is suspended from the roof of a trolley which moves in a horizontal direction with an acceleration alpha , then the time period is given by T = 2pisqrt(((I)/(g))) where g is equal to

The length of a simple pendulum is 16 cm . It is suspended by the roof of a lift which is moving upwards with an accleration of 6.2 ms^(-2) . Find the time period of pendulum.

A simple pendulum of length 5 m is suspended from the ceiling of a cart. Cart is sliding down on a frictionless surface having angle of inclination 60°. The time period of the pendulum is

A simple pendulum hangs from the roof of a train whose string is inclined towards the rear of the train. Then the train is