Home
Class 12
PHYSICS
A small block of mass 'm' is kept on the...

A small block of mass `'m'` is kept on the smooth inclined plane of angle `37^@)`, placed in an elevator going upward with acceleration `a=g/3`, as shown in the figure. A horizontal electric field `E` perpendicular to the left and right vertical wall of the elevator exists. The charge on the block is `+q`. Find the time (in sec) when the block collide with the vertical wall. (take `g=10m//s^(2)` and `(qE)/m=25m//s^(2)`)

Promotional Banner

Similar Questions

Explore conceptually related problems

A block slides down from top of a smooth inclined plane of elevation ● fixed in an elevator going up with an acceleration a_(0) The base of incline hs length L Find the time taken by the block to reach the bottom .

A block slides down from top of a smooth inclined plane of elevation ● fixed in an elevator going up with an acceleration a_(0) The base of incline hs length L Find the time taken by the block to reach the bottom .

A block slides down from top of a smooth inclined plane of elevation theta fixed in an elevator going up with an acceleration a_0 The base of incline has length L. Find the time taken by the block to reach the bottom.

A block of mass m having a charge q is placed on a smooth horizontal table and is connected to a wall through an unstressed spring of spring constant k as shown in figure . A horizontal electric field E parallel to the spring is switched on. Find the amplitude of the resulting SHM of the block.

A block of mass m is released from the top of fixed inclined smooth plane. if theta is the angle of inclination then vertical accelertion of block is

A block of mass m having a charge q is placed on a smooth horizontal table and is connected to a wall through an unstressed spring of spring constant k as shown in figure(29.E1) . A horizontal electric field E parallel to the spring is switched on. Find the amplitude of the resulting SHM of the block.

A block of mass m having a charge q is placed on a smooth horizontal table and is connected to a wall through an unstressed spring of spring constant k as shown in figure(29.E1) . A horizontal electric field E parallel to the spring is switched on. Find the amplitude of the resulting SHM of the block.

A block can slide along incline plane as shown in figure. The acceleration of chamber is ( 2)/( sqrt( 3))g m//s^(2) horizontally as shown. Find the time when the block collide with the vertical wall AB of the chamber ( take g = 10 m//s^(2) )

A block can slide along incline plane as shown in figure. The acceleration of chamber is ( 2)/( sqrt( 3))g m//s^(2) horizontally as shown. Find the time when the block collide with the vertical wall AB of the chamber ( take g = 10 m//s^(2) )