In an imaginary atmosphere, the air exerts a small force F on any particle in the direction of the particle's motion. A particle of mass m projected upward takes time `t_1` and reaching the maximum height and `t_2` in the return journey to the original point. Then

A particle is projected vertically upwards and it reaches the maximum height H in time T seconds. The height of the particle at any time t will be-

A particle is projected vertically upwards and reaches the maximum height H in time T. The height of the partlcle at any time t (lt T) will be

The height reached in time t by a particle thrown upward with a speed u is given by h=ut-1/2 g t^2 where g=9.8 m/s^2 is a constant. Find the time taken in reaching the maximum height.

A particle is thrown up vertically with a speed v_(1) in air . If takes time t_(1) in upward journey and t_(2)(gt t_(1)) in the downward journey and returns to the starting point with a speed v_(2) . Then:-

A particle of mass m is acted upon by a force F= t^2-kx . Initially , the particle is at rest at the origin. Then

A particle is projected vertically upwards from ground with velocity 10 m // s. Find the time taken by it to reach at the highest point ?

A particle of mass m is projected with a speed v at an angle theta with the horizontal. Find the angular momentum of the particle about an axis passing through point of projection and perpendicular to the plane of motion of the particle. (a) When the particle is at maximum height and (b) When the particle is just about to collide with the horizontal surface

Two particles of equal mass are projected simultaneously with speeds 20 m//s end 10sqrt(3)m//s as shown in figure. Find the maximum height reached by the centre of mass of the particles

The motion of a particle of mass m is described by y =ut + (1)/(2) g t^(2) . Find the force acting on the particale .

The motion of a particle of mass m is described by y =ut + (1)/(2) g t^(2) . Find the force acting on the particale .