Home
Class 12
PHYSICS
In a 3D coordinate system a plane mirror...

In a 3D coordinate system a plane mirror is placed parallel to XY plane and above the mirror a point object is moving at velocity `vecv_(0)=5hati-3hatj-1lhatkm//s` If mirror is also moving parallel to it self at velocity `vecv_(m)=2hati+hatj-3hatk,` find the velocity of image produced in mirror,
`[5hati-3hatj+5hatkm//s]`

Promotional Banner

Similar Questions

Explore conceptually related problems

A palen mirror placed along xy plane is moving with velocity -3hati+5hatk-4hatk. A point in front of the plane mirror is moving with velocity -2hati-4hatj+4hatk. Find velocity of image [-2hati=14hatj+4hatk]

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 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.

To the captain of a ship A travelling with velocity vecv_(A)=(3hati-4hatj)km..h , a second ship B appears to have a velocity (5hati+12hatj) km//h . What is the true velocity of the ship B?

If the velocity is vecv=2hati+t^(2)hatj-9hatk then the magntidue of acceleration at t=0.5s is

A particle of mass 2kg is moving in free space with velocity vecv_0=(2hati-3hatj+hatk)m//s is acted upon by force vecF=(2hati+hatj-2hatk)N . Find velocity vector of the particle 3s after the force starts acting.

A particle of mass 2kg is moving in free space with velocity vecv_0=(2hati-3hatj+hatk)m//s is acted upon by force vecF=(2hati+hatj-2hatk)N . Find velocity vector of the particle 3s after the force starts acting.

A particle of mass 2kg is moving in free space with velocity vecv_0=(2hati-3hatj+hatk)m//s is acted upon by force vecF=(2hati+hatj-2hatk)N . Find velocity vector of the particle 3s after the force starts acting.