If a moving particle have linear momentum `vec P` and position vector `vec r` then choose the correct relation between `vec vec p` and angular momentum `vec L ` of particle about the origin.

The angular momentum L, the linear momentum P and position vector 'r' are related as

A particle of mass m moves in the xy-plane with velocity of vec v = v_x hat i+ v_y hat j . When its position vector is vec r = x vec i + y vec j , the angular momentum of the particle about the origin is.

A particle has a linear momentum p and position vector r. the angular momentum of this particle about the origin will not be zero under the conditions

A particle moves in space such that its position vector varies as vec(r)=2thati+3t^(2)hatj . If mass of particle is 2 kg then angular momentum of particle about origin at t=2 sec is

A particle with the position vector r has linear momentum p. Which of the following statements is true is respect of its angular momentum L about the origin ?

If vec F is the force acting in a particle having position vector vec r and vec tau be the torque of this force about the origin, then

Linear momentum vec(P)=2hat(i)+4hat(j)+5hat(k) and position vector is vec(r)=3hat(i)-hat(j)+2hat(k) , the angular momentum is given by

The momentum of a body is vec P =2 cos t hati +2 sin t hatj. What is the angle between the force vec F acting on the body and the momentum vec P ?

The position vector of a particle of mass m= 6kg is given as vec(r)=[(3t^(2)-6t) hat(i)+(-4t^(3)) hat(j)] m . Find: (i) The force (vec(F)=mvec(a)) acting on the particle. (ii) The torque (vec(tau)=vec(r)xxvec(F)) with respect to the origin, acting on the particle. (iii) The momentum (vec(p)=mvec(v)) of the particle. (iv) The angular momentum (vec(L)=vec(r)xxvec(p)) of the particle with respect to the origin.

Two particle are initially moving with angular momentum vec(L)_(1) and vec(L)_(2) in a region of space with no external torque. A constant external torque vec( tau) then acts on one particle, but not on the other particle, for a time interval Delta t . What is the chargne in the total angular momentum of the two particles ?