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 particle moves with constant speed v along a regular hexagon ABCDEF in the same order. Then the magnitude of the avergae velocity for its motion form A to

A particle is moving with constant speed v along the line y = a in positive x -direction. Find magnitude of its angular velocity about orgine when its position makes an angle theta with x-axis.

A particle of mass m is moving with constant speed in a vertical circle in X-Z plane. There is a small both at some distance on Z- axis. The maximum distance of the shadow of the particle on X- axis from origin equal to :-

An object moves to the East across a frictionless surface with constant speed. A person then applies a constant force to the North on the object. What is the resulting path that the object takes ?

Water (density rho ) is flowing through the uniform tube of cross-sectional area A with a constant speed v as shown in the figure. Find the magnitude of force exerted by the water on the curved corner of the tube is (neglect viscous forces)

A plate moves normally with the speed v_(1) towads a horizontal jet of uniform area of cross-section. The jet discharge water at the rate of volume V per second at a speed of v_(2) . The density of water is rho . Assume that water splashes along the surface of the plate ar right angles to the original motion. The magnitude of the force action on the plate due to the jet of water is

The figure shows a particle (carrying charge +q) at the orgin. A uniform magnetic field is directed into the plane of the paper. The particle can be projected only in the plane of paper and along positive or negative x- or y-axis. The particle moves with constant speed and has to hit a target located in the third quadrant. There are two direction of projections, which can make it possible, these are

A particle of mass 2 kg moves on a circular path with constant speed 10 m // s . Find change in speed and magnitude of change in velocity. Whan particle completes half revolution.

Refer to figure the arm PQ of the rectangular conductor is moved from x = 0, outwards. The uniform magnetic field is perpendicular to the plane and extends from x = 0 to x = b and is zero for x gt b. Only the arm PQ possesses substantial resistance r. Consider the situation when the arm PQ is pulled outwards from x = 0 to x = 2b and is then moved back to x = 0 with constant speed v. Obtain expressions for the flux, the induced emf, the force necessary to pull the arm and the power dissipated as Joule heat. Sketch the variation of these quantities with distance.

An electron moving with a velocity v along the positive x -axis approaches a circular current carrying loop as shown in the fig. the magnitude of magnetic force on electron at this instant is