A particle of mass `m` is thrown with speed `u` at an angle of projection `theta` with horizontal. The average power imparted by the gravitational force until it strikes the ground is

A particle is fired from a point on the ground with speed u making an angle theta with the horizontal.Then

What is the average velocity of a particle projected from the ground with speed u at an angle alpha with horizontal over a time interval from beginning till it strikes the ground again?

A particle is thrown with speed u at an angle of projection theta with horizontal as shown. (i) The avergae velocity of particle from O to A is u cos theta (ii) The average velocity of particle from O to H (highest point) is (u)/(2) sqrt(1 + 3 cos^(2) theta) (iii) The average velocity of particle from J to K is u cos theta (iv) The angle between the velocity and the acceleration between O and H is greater than 90^(@) , between H to A is less than 90^(@) and at highest point is 90^(@)

A particle of mass m is projected with a speed v_(0) at an angle of projection theta with horizontal. Find the torque of the weight of the particle about the point of projection after time (v_(0)sintheta)/(g)

A particle is projected with a velocity u making an angle theta with the horizontal. The instantaneous power of the gravitational force

A particle is projeced with a velocity u making an angle theta with the horizontal. The instantaneous power of the gravitational force

A particle is thrown with speed u at an angle theta with horizontal. Find the average velocity of particle: (a) O to C (b) A to B ( c) O to H

If a particle of mass m is thrown with speed v, at an angle 60° with horizontal, then angular momentum of particle at highest point about point of projection.