Suppose a rocket with an intial mass `M_(0)` eject a mass `Deltam` in the form of gases in time `Deltat`, then the mass of the rocket after time t is :-

A body of mass m is projected with intial speed u at an angle theta with the horizontal. The change in momentum of body after time t is :-

A rocket fired from the earth's surface ejects 1% of its mass at a speed of 2000 ms^(-1) in the first second. Find the average acceleration of the rocket in the first second.

A rocket is fired vertically from the earth with an acceleration of 2g, where g is the gravitational acceleration. On an inclined plane inside the tocket, making an angle theta with the horizontal, a point object of mass m is kept, the minimum coefficient of friction mu_(min) between the mass and the inclined suface such that the mass does not move is:

A particle of mass m id driven by a machine that delivers a constant power k watts . If the particle starts from at rest the force on the particle at time t is :

A rocket of mass 120kg. Is fired in the gravity free space is ejected gases with velocity 600 m/s at the rate of 1kg/s. what will be the initial accleration of the rocket:-

The equation of motion of rockets are x=2t, y=-4t, z=4t where the time 't' is given in second and the coordinate of a moving point in kilometres. What is the path of the rockets? At what distance will the rocket be from the starting point O(0, 0, 0) in 10s.

A body of mass m_(0) is placed on a smooth horizontal surface . The mass of the body is decreasing exponentially with disintegration constant , lambda . Assuming that the mass is ejected backwards with a relative velocity u . If initially the body was at rest , the speed of body at time t is

A rocket is fired vertically from the ground. It moves upwards with a constant acceleration 10m//s^(2) after 30 sec the fuel is finished. After what time from the instant of firing the rocket will attain the maximum height? g=10m//s^(2) :-

If a vertical mass spring system is taken to the moon, will its time period after?

A particle with mass m and initial speed V_(0) is a subject to a velocity-dependent damping force of the form bV^(n) .With dimensional analysis determine how the stopping time depends on m, V_(0) and b for begin with writing Deltat=Am^(alpha)b^(beta)V_(0)^(gamma) , powers alpha, beta and gamma will be.