A rod `AB` of length `2m` moves in horizontal `x-y` plane. At any instant end a of the rod is at origin and has velocity `vecv_(A)=2hati+v_(y)hatj`. The other end `B` at the same instant is moving with velocity `vecv_(B)=3hati+6hatj`. The rod makes an angle of `30^(@)` with the `x-`axis at this instant (see figure)
The value of `v_(y)` is

A rod AB of length 2m moves in horizontal x-y plane. At any instant end a of the rod is at origin and has velocity vecv_(A)=2hati+v_(y)hatj . The other end B at the same instant is moving with velocity vecv_(B)=3hati+6hatj . The rod makes an angle of 30^(@) with the x- axis at this instant (see figure) The magnitude of angular velocity of the rod is

A 120 g mass has a velocity vecv=2hati+5hatj m s^(-1) at a certain instant. Its kinetic energy is

A rod of length l is moving in a vertical plane ( x-y ) when the lowest point A of the rod is moved with a velocity v . find the a angular velocity of the rod and b velocity of the end B .

Find the instantneous axis of rotation of a rod length l when its end A moves with a velocity vecv_(A)=Vi and the rod rotates with an angular velocity vecomega=-v/(2l)hatk .

A uniform rod of length l and mass 2 m rests on a smooth horizontal table. A point mass m moving horizontally at right angles to the rod with velocity v collides with one end of the rod and sticks it. Then

A uniform rod of length l and mass 2 m rests on a smooth horizontal table. A point mass m moving horizontally at right angles to the rod with velocity v collides with one end of the rod and sticks it. Then

A rod of length 'l' is inclined at an angle 'theta' with the floor against a smooth vertical wall. If the end A moves instantaneously with velocity v_(1) , what is the velocity of end B at the instant when rod makes 'theta' angle with the horizontal.

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 2.0 kg particle has a velocity of vecv_1=(2.0hati-3.0hatj) m //s , and a 3.0 kg particle has a velocity vecv_2=(1.0hati+6.0hatj)m//s . How fast is the center of mass of the particle system moving?

An object is projected with velocity vecv_(0) = 15hati + 20hatj . Considering x along horizontal axis and y along vertical axis. Find its velocity after 2s.