A particle of mass m moves with a constant velocity along 3 different paths, DE, OA and BC. Which of the following statements is not correct about its angular momentum about point O?
1. | It is zero when it is at A and moving along OA. |
2. | The same at all points along the line DE. |
3. | Of the same magnitude but oppositely directed at B and D. |
4. | Increases as it moves along the line BC. |
In free space, a rifle of mass \(M\) shoots a bullet of mass \(m\) at a stationary block of mass \(M\) at a distance \(D\) away from it. When the bullet has moved through a distance \(d\) towards the block, the centre of mass of the bullet-block system is at a distance of:
1. \(\frac{D-d}{M+m}~\text{from the bullet}\)
2. \(\frac{md+ MD}{M+m}~\text{from the block}\)
3. \(\frac{2md+ MD}{M+m}~\text{from the block}\)
4. \(\frac{(D-d)M}{M+m}~\text{from the bullet}\)
Blocks A and B are resting on a smooth horizontal surface given equal speeds of 2 m/s in the opposite sense as shown in the figure.
At t = 0, the position of blocks are shown, then the coordinates of centre of mass at t = 3s will be
1. (1, 0)
2. (3, 0)
3. (5, 0)
4. (2.25, 0)
A wheel is at rest. Its angular velocity increases uniformly and becomes 80 rad/s after 5 s. The total angular displacement is
1. 800 rad
2. 400 rad
3. 200 rad
4. 100 rad
Moment of inertia of an object does not depend upon
1. | mass of object |
2. | mass distribution |
3. | angular velocity |
4. | axis of rotation |
A force is acting on a point . The torque acting about a point is
1. 0
2.
2.
4.
A thin uniform circular disc of mass \(M\) and radius \(R\) is rotating in a horizontal plane about an axis passing through its center and perpendicular to its plane with an angular velocity . Another disc of the same dimensions but of mass \(\frac{1}{4}M\) is placed gently on the first disc co-axially. The angular velocity of the system will be:
1. | 2. | ||
3. | 4. |
When a torque acting upon a system is zero, then which of the following will be constant
1. | force |
2. | Linear momentum |
3. | Angular momentum |
4. | Linear impulse |