A straight rigid rod of mass `M` and length `L` lies on a smooth horizontal table. Taking the co-ordinate axes as shown in the figure and assuming an average force `ltFgt` acting for a small time interval `(/_\t)`, at the end `A`, making an angle `30^@` with the `X`-axis, Based on the above passege, answer the following questions.
The angular impulse, due to the force about `O`, is

A straight rigid rod of mass M and length L lies on a smooth horizontal table. Taking the co-ordinate axes as shown in the figure and assuming an average force ltFgt acting for a small time interval (/_\t) , at the end A , making an angle 30^@ with the X -axis, Based on the above passege, answer the following questions. Angular velocity of rod about O is

A straight rigid rod of mass M and length L lies on a smooth horizontal table. Taking the co-ordinate axes as shown in the figure and assuming an average force ltFgt acting for a small time interval (/_\t) , at the end A , making an angle 30^@ with the X -axis, Based on the above passege, answer the following questions. Linear velocity of the CM of rod is

A rod AB of mass M and length L lies on smooth horizontal table impulse J is applied to end A as shown in the figure immediately after imparting the impulse :

A uniform rod of mass m and length l is on the smooth horizontal surface. When a constant force F is applied at one end of the rod for a small time t as shown in the figure. Find the angular velocity of the rod about its centre of mass.

A uniform rod of mass m, length l is placed over a smooth horizontal surface along y -axis and is at rest as shown in figure. An impulsive force F is applied for a small time Deltat along x-direction at point A. The x-coordinte of end A of the rod when the rod becomes parallel to x-axis for the first is (in itially the coordinates opf centre of mass of the rod is (0,0).

A uniform rod of mass M and length 2L lies on a smooth horizontal table. There is a smooth peg O fixed on the table. One end of the rod is kept touching the peg as shown in the figure. An impulse J is imparted to the rod at its other end. The impulse is horizontal and perpendicular to the length of the rod. Find the magnitude of impulse experienced by the peg.

A uniform rod of mass m and length l is placed over a smooth horizontal surface along the y -axis and is at rest as shown in Fig. An impulsive force F is applied for a small time /_\t along x -direction at point A . The x -coordinate of end A of the rod when the rod becomes parallel to x -axis for the first time is [initially, the coordinate of centre of mass of the rod is (0, 0) ]

A thin uniform rod of mass M and length L is lying on a smooth horizontal floor. It is struck by a force F normally at one end. The contact lasts for a very small time t_(0) . Find the distance traveled by the rod in the time in which it is turned by pi//2 .

A thin uniform copper rod length l and mass m rotates unifomly with an angular velocity omega about a vertical axis passing through one of its ends as shown in the figure. Young's modulus of copper is Y. Breaking stress is sigma_(max) , cross sectional area of rod is A and density of rod is uniform. Based on above information, answer the following questions The maximum angular velocity with which the rod can rotate so that is won't break, is

A thin uniformed rod of mass m and length L is hinged at one end and from other end a light string is attached. The string is wound over a frictionless pullely (having mass 2m ) and a block of mass 2m is connected to string on other side of pulley as shown. the system is released from rest when the rod id making an angle of 37^(@) with horizontal. Based on above information answer the following question : Just after releases of the system from rest acceleration of block is