If trolley accelerates horizontally with acceleration a then bob is displaced backward from its initial vertical position. The angular deflection of the bob in equilibrium is

When the trolley show in figure is given a horizontal acceleration a , the pendulem bob of mass m gets deflected to a maximum deflection , the net acceleration of the bob with respect to trolley is

A uniform rod of mass m and length L is free to rotate in the vertical plane about a horizontal axis passing through its end. The rod initially in horizontal position is released. The initial angular acceleration of the rod is:

A car is moving on a horizontal road with constant acceleration 'a' . A bob of mass 'm' is suspended from the ceiling of car. The mean position about which the bob will oscillate is given by ( 'theta' is angle with vertical)

A car is moving on a plane inclined at 30^(@) to the horizontal with an acceleration of 10m//s^(2) parallel to the plane upward. A bob is suspended by a string from the roof. The angle in degrees which the string makes with the vertical is: (Assume that the bob does not move relative to car) [g=10m//s^(2)]

A trolley has a simple pendulum suspended from a frame fixed to itsa desk A block B is in contact on its vertical and The trolley is on horizontal rails and acceleration toward the right such that the block is just orevented from falling The value of coefficient of friction between A and B is 0.5 to the vertical is

A bob is attached to one end of a string other end of which is fixed at ped A . The bob is taken to a position where string makes an angle of 30^(@) with the horizontal. On the circular path of the bob in vertical plane there is a peg 'B' at a symmetrical position with respect to the position of release as shown in the figure. If V_(c) and V_(a) be the minimum speeds in clockwise and anticlokwise direction respectively, given to the bob in order to hit the peg 'B' then ratio V_(c) : V_(a) is equal to :

A bob is attached to one end of a string other end of which is fixed at ped A . The bob is taken to a position where string makes an angle of 30^(@) with the horizontal. On the circular path of the bob in vertical plane there is a peg 'B' at a symmetrical position with respect to the position of release as shown in the figure. If V_(c) and V_(a) be the minimum speeds in clockwise and anticlokwise direction respectively, given to the bob in order to hit the peg 'B' then ratio V_(c) : V_(a) is equal to :

A half metre scale is pivoted about a horizontal fiictionless pin through one end as shown in Fig. The scale is released from rest in a vertical position. At the instant when the scale is horizontal what is (i) its angular speed and (ii) the magnitude of the angular acceleration.(Given length of rod =1/2 m)

A ball suspended by a thread swings in a vertical plane so that its acceleration in the extreme position and lowest position are equal. The angle  of thread deflection in the extreme position will be - 2

A uniform rod of length l and mass m is free to rotate in a vertical plane about A as shown in Fig. The rod initially in horizontal position is released. The initial angular acceleration of the rod is