A particle moves from the point 2 4 . at with an initial velocity (5.01 07 It is acted upon be constant force which proces constant acceleration (4-40/1. Wat is the distance of the article from the onzinst 25

A Particle move from the point (2.0 hati + 4.0 hatj)m , at t 0 , with an initial velocity (5.0 hati + 4.0hati)ms^(-1) . It is acted upon by a constant force which prouduces a constant acceleration (4.0hati + 4.0 hatj) ms^(-2) . What is the distance of the particle from the origin at time 2 s?

A Particle move from the point (2.0 hati + 4.0 hatj)m , at t 0 , with an initial velocity (5.0 hati + 4.0hati)ms^(-1) . It is acted upon by a constant force which prouduces a constant acceleration (4.0hati + 4.0 hatj) ms^(-2) . What is the distance of the particle from the origin at time 2 s?

A particle moves from the point (2.0hati+4.0hatj) m at t=0, with an initial velocity ( 5.0hati+4.0hatj)ms^(-1) . It is acted upon by constant acceleration (4.0hati+4.0hatj)ms^(-2) . What is the distance (im metre) of the particle from the origin at time 2s?

A particle, starting from rest, moves with constant acceleration 4 ms^(-2). The distance travelled by the particle in 5^(th) second is.

A particle starts from rest and moves with constant acceleration. Then velocity displacement curve is:

A particle starts from rest and moves with constant acceleration. Then velocity displacement curve is:

A particle starting from initial velocity v_0 moves on straight line with constant acceleration equation of distance travelled during n^"th" second will be …... .

A particular has initial velocity , v=3hati+4hatj and a constant force F=4hati-3hatj acts on it. The path of the particle is

A particular has initial velocity , v=3hati+3hatj and a constant force F=4hati-3hatj acts on it. The path of the particle is

A particle starts moving along a line from zero initial velocity and comes to rest after moving distance d. During its motion it had a constant acceleration f over 2/3 of the distance, and covered the rest of the distance with constant retardation. The time taken to cover the distance is