A bead slide freely along a curved wire lying on a horizontal surface at constant speed as shown in Fig
a. Draw the vectors repesenting the force exerted by the wire on the bead at point A ,B and C
b. Suppose the bead in figure speeds up with constant tangential acceleration as it moves toward the right Draw the vector representing the force on the bead at point A B and C

IF a body moves with constant speed along a curved path,its tangential acceleration is

In the above problem, tangential acceleration of the bead just after it is released, is

A bead is arranged to move with constant speed around a loop that lies in a vetical plane. The magnitude of the net force on the bead is

A bead of mass m is located on a parabolic wire with its axis vertical and vertex at the origin as shown in figure and whose equastion is x^(2) =4ay . The wire frame is fixed and the bead is released from the point y=4a on the wire frame from rest. The tangential acceleration of the bead when it reaches the position given by y=a is

A bead C can move freely on a horizontal rod. The bead is connected by blocks B and D by a string as shown in the figure. IF the velocity of B is v. find the velocity of block D.

A small, electrically charged bead can slide on a circular, frictionless, thin, insulating ring. Charge on the bead is Q and its mass is m . A small electric dipole, having dipole moment P is fixed at the centre of the circle with the dipole’s axis lying in the plane of the circle. Initially, the bead is held on the perpendicular bisector of the dipole (see fig.) Ignore gravity and answer the following questions. (a) Write the speed of the bead when it reaches the position theta shown in the figure. (b) Find the normal force exerted by the ring on the bead at position theta . (c) How does the bead move after it is released? Where will the bead first stop after being released? (d) How would the bead move in the absence of the ring?

A head slide without friction around a loop the (figure). The bead slide is released is from rest at a height h = 3.50R . How large is the normal force on the bead at point (A) if its mass is 50 g ?