A motor boat of mass m moves along a lake with velocity `V_(0)`. At `t = 0`, the engine of the boat is shut down. Magnitude of resistance force offered to the boat is equal to rV. (V is instantaneous speed). What is the total distance covered till it stops completely? [Hint: `F(x) = mV(dV)/(dx) =- rV]`

A motor boat of mass m moves along a lake with velocity v_(0) . At t = 0, the engine of the boat is shut down. Resistance offered to the boat is equal to sigma v^(2) . Then distance covered by the boat when its velocity becomes v_(0)//2 is

A motor boat of mass m moves along a lake with velocity V_(0) . At the moment t=0 the engine of the boat is shut down. Assuming the resistance of water is proportional to the velocity of the boat vecF=-rvecv Q. How long the motor boat with the shut down engine.

A motor boat of mass m moves along a lake with velocity V_(0) . At the moment t=0 the engine of the boat is shut down. Assuming the resistance of water is proportional to the velocity of the boat vecF=-rvecv Q. The velocity (v) of the motor boat as a function of the distance (s) covered with the shutdown engine is

The force of resistance encountered by water on a motor boat of mass m going in still water with velocity v is proportional to the velocity vdot At t=0 when its velocity is v_0, then engine shuts off. Find an expression for the position of motor boat at time t and also the distance travelled by the boat before it comes to rest. Take the proportionality constant as k > 0.

A particle of mass m moves on a straight line with its velocity varying with the distance travelled according to the equation v=asqrtx , wher ea is a constant. Find the total work done by all the forces during a displacement from x=0 to x=d .

A particle of mass m moves on a straight line with its velocity varying with the distance travelled according to the equation v=asqrtx , where a is a constant. Find the total work done by all the forces during a displacement from x=0 to x=d .

A particle of mass m moves on a straight line with its velocity varying with the distance travelled according to the equation v=asqrtx , where a is a constant. Find the total work done by all the forces during a displacement from x=0 to x=d .

Two blocks A and B of masses m and 2m respectively are placed on a smooth floor. They are connected by a spring. A third block C of mass m moves with a velocity v_0 along the line joing A and B and collides elastically with A, as shown in figure. At a certain instant of time t_0 after collision, it is found that the instantaneous velocities of A and B are the same. Further, at this instant the compression of the spring is found to be x_0 . Determine (i) the common velocity of A and B at time t_0 , and (ii) the spring constant.

A particle of charge q and mass m moving with a velocity v along the x-axis enters the region xgt0 with uniform magnetic field B along the hatk direction. The particle will penetrate in this region in the x -direction upto a distance d equal to

A particle of mass m moves with a variable velocity v, which changes with distance covered x along a straight line as v=ksqrtx , where k is a positive constant. The work done by all the forces acting on the particle, during the first t seconds is