Shown plane mirror is lying in y-z plane. A particle P has velocity `vecu = 5hati + 6 hatj` at t=0 & acceleration `veca =2thatj`. Velocity of its image at t=2s relative to it is

A particle has an initial velocity of 4 hati +3 hatj and an acceleration of 0.4 hati + 0.3 hatj . Its speed after 10s is

A plane mirror is lying in x-y plane .Object velocity is V_0=(2 hati-3 hatj+4 hatk) m//s . Find the image velocity.

A particle has an initial velocity 3hati+3hatj and acceleration of 0.41hati+0.3hatj . Its speed after 10s is

A particle starts from rest at t=0 and moves in a straight line with an acceleration as shown below. The velocity of the particle at t=3 s is

A particle has an initial velocity (6hati+8hatj) ms^(-1) and an acceleration of (0.8hati+0.6hatj)ms^(-2) . Its speed after 10s is

Starting from rest, the acceleration of a particle is a=2(t-1). The velocity of the particle at t=5s is :-

A particle at origin (0,0) moving with initial velocity u = 5 m/s hatj and acceleration 10 hati + 4 hatj . After t time it reaches at position (20,y) then find t & y

Velocity of a particle at any time t is v=(2 hati+2t hatj) m//s. Find acceleration and displacement of particle at t=1s. Can we apply v=u+at or not?

The position of a particle is expressed as vecr = ( 4t^(2) hati + 2thatj) m, where t is time in second. Find the velocity o the particle at t = 3 s

A plane mirror is moving with velocity -2 hati - 3 hatj + 4hatk . A point object in front of the mirror move with a velocity -3 hati + 4 hatj -4hatk . There hat j is along the normal to the plane mirror and facing towards the object. Find velocity of image.