Two rods are rotating about two fixed points in opposite directions. If they start from their position of coincidence and one rotates at the rate double that of the other, then find the locus of point of the intersection of the two rods.

Two straight lines rotate about two fixed points (-a,0) and (a,0) in antic clockwise direction.If they start from their position of coincidence such that one rotates at a rate double of the other,then locus of curve is

Two straight lines rotate about two fixed points (-a, 0) and (a,o). If they start from their position of coincidence such that oen rotates at the rate double that of the other, then The point (-a,0) always lies

The locus of a point equidistant from two intersecting lines is

A uniform rod AB hinged about a fixed point P is initially vertical. A rod is released from vertical position. When rod is in horizontal position: The acceleration of the centre of mass of the rod is

A uniform rod AB hinged about a fixed point P is initially vertical. A rod is released from vertical position. When rod is in horizontal position: The acceleration of end B of the rod is

A uniform rod AB hinged about a fixed point P is initially vertical. A rod is released from vertical position. When rod is in horizontal position: The reaction at hinge P is

In a children's park a heavy rod is pivoted at the centre and is made to rotate about the pivot so tht the rod always remains horizontal. Two kids hold the rod near the ends and thus rotate with the rod figure. Let the mas of each kid be 15 kg, the distance betweent eh points of the rod where the two kids hold it be 3.0 m and supose that teh rod rotates at the rate of 20 revolutions per minute. Find the force of fircton exerted by te rod on one of the kids.

A uniform rod of length L is rotating about its one end in the horizontal plane under constant aceeleration alpha starting from rest. Find the linear velocity of its mid-point after time t_(0) . Also, find the normal and tangential components of acceleration of the mid-point of the rod at this instant.