Two identical discs of same radius `R` are rotating about their axes in opposite directions with the same constant angular speed `omega` . The discs are in the same horizontal plane. At time `t = 0` , the points `P` and `Q` are facing each other as shown in the figure. The relative speed between the two points `P` and `Q` is `v_(r)`. In one time period `(T) ` of rotation of the discs , `v_(r)` as a function of time is best represented by

The magnitude of displacement of a particle moving in a circle of radius a with constant angular speed omega varries with time t is

If the normals at two points P and Q of a parabola y^2 = 4ax intersect at a third point R on the curve, then the product of ordinates of P and Q is

Consider a disc rotating in the horizontal plane with a constant angular speed omega about its centre O . The disc has a shaded region on one side of the diameter and an unshaded region on the other side as shown in the figure. When the disc is in the orientation as shown, two pebbles P and Q are simultaneously projected at an angle towards R. The velocity of projection is in the y-z plane and is same for both pebbles with respect to the disc. Assume that (i) they land back on the disc before the disc has completed (1)/(8) rotation, (ii) their range is less than half the disc radius, and (iii) w remains constant throughout. Then

Two identical eggs, one raw and other boiled, area rotated with the same angular speed. Which one will come to rest earlier?

If two spheres of same material and same radius r are touching each other, then show that the gravitational force between them is directly proportional to r^4

The equivalent resistance between the point P and Q in the network given here is equal to (given r = (3)/(2) Omega)

A particle is moving in a circle of radius r with speed v as shown in the figure. The magnitude of change in velocity in moving from P to Q is

A charge +2q moves vertically upwards with speed v , a second charge -q moves horizontally to the right with the same speed v , and a third charge +q moves horizonatlly to the right with the same speed v . The point P is located a perpendicular distance a away from each charge as shown in the figure. The magnetic field at point P is

Two particles, each of mass m and speed v, travel in opposite directions along parallel lines separated by a distance d. Show that the angular momentum vector of the two particle system is the same whatever be the point about which the angular momentum is taken.

A disc of the radius R is confined to roll without slipping at A and B. If the plates have the velocities v and 2v as shown, the angular velocity of the disc is