A pendulum suspended from the ceiling of train has a period T When the train is at rest. When the train si accelerating with a uniform acceleratio a, the period of oscillation will

A pendulum suspended from the ceiling of the train has a time period of two seconds when the train is at rest, then the time period of the pendulum, if the train accelerates 10 m//s^(2) will be (g=10m//s^(2))

A simple pendulum is suspended from the ceiling of a car and its period of oscillation is T when the car is at rest. The car starts moving on a horizontal road with a constant acceleration g (equal to the acceleration due to gravity, in magnitude) in the forward direction. To keep the time period same, the length of th pendulum

A simple pendulum is suspended from the ceilling of a left. When the lift is at rest, its time period is T . With what accleration should lift be acclerated upwards in order to reduce its time period to (T)/(2) .

A simple pendulum is suspended from the ceiling of a stationary elevator and it oscillates with a small amplitude if the elevator accelerates upwards, the

A pendulum is suspended in a ligt and its period of oscillation when the lift is stationary is T_(a) . What must be the accleraion of the lift for the period of oscillation of the pendulum to be T_(0)//2 ?

A simple pendulum suspended from the celling of a stationary lift has period T_(0) . When the lift descends at steady speed, the period is T_(1) , and when it descends with constant downward acceleration, the period is T_(2) which one of the following is true?

A particle of mass 'm' and charge 'q' is suspended from the ceiling with the help of an insulating wire of length 'l' . It is placed in an uniform electric field as shown in figure. Then the time period of oscillation is

A seconds pendulum is suspended from the ceiling of a trolley moving horizontally with an acceleration of 4 m//s^(2) . Its period of oscillation is

A simple pendulum of length 1 feet suspended from the ceiling of an elevator takes pi/3 seconds to complete one oscilation. Find the acceleration of the elevator.

A simple pendulum is suspended from the ceiling a car accelerating uniformly on a horizontal road. If the acceleration is a_0 and the length of the pendulum is l, find the time period of small oscillations about the mean position.