A car is acclerating down on an inclined plane as shown in the figure with acceleration a=g. Now find time period of SHM of the pendulum present inside the car.

Two blocks 4 kg and 2 kg are sliding down an inclined plane as shown in the figure. The acceleration of 2kg block is

Two blocks 4 kg and 2 kg are sliding down an incline plane as shown in figure. The acceleration of 2 kg block is.

A block is sliding along an inclined plane as shown in figure . If the acceleration of chamber is a as shown in figure. The time required to cover a distance L along inclined is

A block is sliding along an inclined plane as shown in figure . If the acceleration of chamber is a as shown in figure. The time required to cover a distance L along inclined is

A block is sliding along an inclined plane as shown in figure . If the acceleration of chamber is a as shown in figure. The time required to cover a distance L along inclined is

(a) Find the time period of oscillations of a torsinal pendulum, if the torsional, constant of the wire is K=10pi^(2)J//rad . The moment of inertia of rigid body is 10 kg m^(2) about the axis of rotation. (b) A simple pendulum of length l=0.5 m is hanging from ceiling of a car. the car is kept on a horizontal plane. The car starts acceleration of 5m//s^(2) . find the time period of oscillations of the pendulum for small amplitudes about the mean position.

Figure shows smooth inclined plane fixed in a car accelerating on a horizontal road. The angle of incline theta is related to the acceleration a of the car as a=g tantheta . If the sphere is set in pure rolling on the incline

Figure shows smooth inclined plane fixed in a car accelerating on a horizontal road. The angle of incline theta is related to the acceleration a of the car as a=g tantheta . If the sphere is set in pure rolling on the incline

Figure shows smooth inclined plane fixed in a car acceleratiing on a horizontal road. The angle of incline theta is related to the acceleration a of the car as a=gtantheta . If the sphere is set in pure rolling on the incline