A spaceship in space sweeps stationary interplanetary dust . As a result , its mass increase at a rate `(dM(t))/(dt) =bv^(2) (t)` , where v(t) is its instantaneous velocity . The instantaneous acceleration of the satellite is :

A satellite in a force - free space sweeps stationary interplanetary dust at a rate dM//dt = alpha v , where M is the mass , v is the velocity of the satellite and alpha is a constant. What is the deacceleration of the satellite ?

A satellite in force free space sweeps stationary interplanetary dust at a rate (dm)/(dt)= alphav where m is mass , V is the velocity of the satellite and alpha is a constant . What is the decelration of the satellite .

A satellite in force-free sweeps stationary interplanetary dust at a rate of dM/dt=alpha v , where M is mass and v is the speed of satellite and alpha is a constant. The tangential acceleration of satellite is

A particle moving in the positive x-direction has initial velocity v_(0) . The particle undergoes retardation kv^(2) , where vis its instantaneous velocity. The velocity of the particle as a function of time is given by:

The displacement of a particle is given by y=(6t^2+3t+4)m , where t is in seconds. Calculate the instantaneous speed of the particle.

The velocity of a particle is given by v=12+3(t+7t^2) . What is the acceleration of the particle?

A particle initially (i.e., at t = 0) moving with a velocity u is subjected to a retarding force, as a result of which it decelerates a=-ksqrt v at a rate where v is the instantaneous velocity and k is a positive constant. The time T taken by the particle to come to rest is given by :

A rocket moving in free space has varying mass due to fuel exhausted d m(t)/dt = -bv^2(t) where m(t) = instantaneous mass, b = constant, v(t) = instantaneous velocity . If gases are ejected with velocity u, with respect to rocket, instantaneous acceleration of should be

A particle moves in a circle of radius 20 cm. Its linear speed is given by v = (3t^(2) +5t) where t is in second and v is in m/s. Find the resultant acceleration at t = 1s.

The displacement s of an object is given as a function of time t s=5t^(2)+9t Calculate the instantaneous velocity of object at t = 0.