In the figure shown the block `B` moves with , velocity `10 ms^(-1)`. The velocity of `A` in the position shown 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 system is shown in the figure. Block A moves with velocity 10m//s . The speed of the mass B will be :

PQ is a long straight conductor carrying a current of 3 A as shown in figure below. An electron moves with a velocity of 2 xx 10^7ms^(-1) parallel to it. Find the force acting on the electron.

An object and a plane mirror are shown in figure. Mirror is moved with velocity V as shown. The velocity of image is : .

The coefficient of friction between the two blocks shown in the figure is mu = 0.4 and between the lower block and the ground is zero. The blocks are given velocities of 2 ms^(-1) and 8 ms^(-1) respectively in the direction shown in the figure. In how much time (in seconds) the slipping between the blocks will stops ?

A car A moves with velocity 15 m s^(-1) and B with velocity 20 m s^(-1) are moving in opposite directions as shown in . Find the relative velocity of B w.r.t. A and w.r.t. B . .

The wavelength of an electron moving with velocity of 10^(7)ms^(-1) is

In the system shown, the block A is moving down eith velocity v_(1) and C is moving up with velocity v_(3) . Express velocity of the block B in terms of velocities of the blocks a and C.

In Figure. , a plane mirror is moving with a uniform speed of 5ms^(-1) along negative x-direction and observer O is moving with a velocity of 10ms^(-1) . What is the velocity of image of a particle P, moving with a velocity as shown in the figure, as observed by observer O? Also find its direction.

In the arrangement shown, velocity of block A is 10 m/s at a moment. Then the velocity of block B at this instant is :