A particle of mass `m` in the `XY`-plane with a velocity `v` along the straight line `AB`. If the angular momentum of the particle with respect to origin `O` is `L_(A)` when it is at `A` and `L_(B)` when it is at `B`, then

A particle of mass m moves in the XY plane with a velocity v along the straight line AB . If the angular momentum of the particle with respect to origin O is L_(A) when it is at A and L_(B) when it is at B, then

A particle of mass m moves in the XY plane with constant velocity v along the straight line PQ as shown in the figure. Its angular momentum with respect to origin O is( theta is angle between vec v and x-axis)

A particle of mass m moves along line PC with velocity v as shown. What is the angular momentum of the particle about O ?

A particle of mass 300 g is moving with a speed of 20 ms^-1 along the straight line y = x - 4sqrt2 . The angular momentum of the particle about the origin is (where y & x are in metres)

A particle of mass m is projected with a velocity v at an angle of theta with horizontal. The angular momentum of the particle at the highest point of its trajectory is equal to :

A particle mass parallel to x-axis with constant velocity v as shown in the figure. The angular velocity of the particle about the origin O

A particle of mass m is moving with constant velocity v parallel to the x-axis as shown in the figure. Its angular momentum about origin O is

A particle is moving in x-y plane as shown in the figure. Angular velocity of the particle with respect to the origin is

A point mass 10 g moves in the xy plane with a velocity 2 ms^(-1) along a straight line. Find the magnitude and direction of its angular momentum (i) with respect to the origin O and (ii) with respect to the origin O. The magnitude of the position vector vecr is 0.5 m and the angle theta = 30^(@) .

A mass m is moving with a constant velocity along a line parallel to the x-axis, away from the origin. Its angular momentum with respect to the origin.