A block A has a velocity of `0.6ms^(-1)` the right. Determine the velocity of cylinder B.

For the pulley system shown in fig. each of the cables at A and B is given a velocity of 2ms^(-1) in the direction of the arrow. Determine the upward velocity v of the load m.

The velocity of the block B is:

A rod AB is shown in figure. End A of the rod is fixed on the ground. Block is moving with velocity 2 ms^-1 towards right. The velocity of end B of rod at the instant shown in figure is

A gas consists of 5 molecules with a velocity of 5ms^(-1) , 10 molecules with a veclocity of 3ms^(-1) and 6 molecules with a velocity of 6ms^(-1) . The ratio of average velocity and rms velocity of the molecles is 9.5xx10^(-x) Where x is……….

In the figure shown the block B moves with , velocity 10 ms^(-1) . The velocity of A in the position shown is

A point on the rim of a wheel 3 m in diameter has linear velocity of 18 ms^(-1) . The angular velocity of the wheel is

If block A is moving horizontally with velocity v_(A) , then find the velocity of block B at the instant as shown in fig.

A block of mass 5 kg is at rest on a smooth horizontal surface. Water coming out of a pipe horizontally at the rate of 2 kg s^(-1) , hits the block with a velocity of 6ms^(-1) .The initial acceleration of the block is,

Two blocks of masses m_1 and m_2 are connected by a spring of spring constant k figure. The block of mass m_2 is given a shape impulse so that it acquires a velocity v_0 towards right. Find a. the velocity of the centre of mass b. the maximum elongation that the spring will suffer.

A particle of mass 1 mg has the same wavelength as an electron moving with a velocity of 3 xx 10^(6) ms^(-1) . The velocity of the particle is