When a force `(8i + 4j)` newton displace a particle through `(3i- 3j)` metre, the power is 0.6W. The time of action of the force is

When a force vecF = (6hati - 2hatj) N displaces a particle by vecS = (2hati - 3hatj) m, then average power is 0.4 w . The time of action of force is

A force ( 3 hati +4 hat j) newton acts on a body and displaces it by (3 hat I + 4 hat j) metere. The work done by the force is y Joules. Find y.

A force (3hati+4hatj) newton acts on a boby and displaces it by (3hati+4hatj) metre. The work done by the force is

A force (3hati+4hatj) newton acts on a boby and displaces it by (3hati+4hatj) metre. The work done by the force is

A force (3hati+4hatj) newton acts on a boby and displaces it by (2hati+3hatj) metre. The work done by the force is

A force (3hat(i) + 2hat(j)) N displaces an object through a distance (2hat(i) - 3hat(j)) m. The work done is :

A particle experiences a force which is proportional to distance from origin and always directed towards origin. Work done by the force during displacement of the particles from (3,4) to (3,0) is 8 J find the constant of proporionally (all the variable are in S.I unit).

The magnetic force acting on a charged particle of charge -2 muC in a magnetic field of 2 T acting y direction, when the particle velocity is (2i + 3 hat(j)) xx 10^(6) ms^(-1) , is

The displacement x of particle moving in one dimension, under the action of a constant force is related to the time t by the equation t = sqrt(x) +3 where x is in meters and t in seconds . Find (i) The displacement of the particle when its velocity is zero , and (ii) The work done by the force in the first 6 seconds .

The work done by a force vec(F)=(-6x^(3)hat(i)) N in displacing a particle from x = 4m to x = - 2m is