The trajectory of particle is symmetrical about the perpendicular drawn form the highest point on x-axis, if the particle performs projectile motion in xy plane.This is due to

The trajectory of a particle is symmetrical about the perpendicular drawn from the highest point on x-axis, if the particle performs projectile motion in xy plane. This is due to

Length of the perpendicular form the point (-6,2,3) on the plane 3x-6y+2z+10=0 is

The physical quantities which remain constant for a particle performing uniform circular motion in horizontal plane are

Derive an expression for difference in tensions at highest and lowest point for a particle performing vertical circular motion.

The displacement of a particle along the x-axis is given by x = a sin^(2) omega t . The motion of the particle corresponds to

In vertical circular motion, the ratio of kinetic energy of a particle at highest point to that at lowest point is

A particle is acted simultaneously by mutually perpendicular simple harmonic motions x = a cos omega t and y = a sin omega t . The trajectory of motion of the particle will be

A beam of a-particles moving along +x axis, experiences a force due to a magnetic field along +y axis.What is the direction of magnetic field?

A force vec((F)) = - K(yhat(i) + x hat(j)) (where K is a positive constant) acts on a particle moving in the X-Y plane. Starting from the origin, the particle is taken along the positive X-axis to the point (a, 0) and then parallel to the Y-axis to the point (a,a). The total work done by the force vec(F) . of the particle is

A particle with charge Q coulomb, tied at the end of an inextensible string of length R metre, revolves in a vertical plane. At the centre of the circular trajectory, there is a fixed charge of magnitude Q coulomb . The mass of the moving charge M is such that Mg=Q^2/(4pivarepsilon_0R^2) . If at the highest position of the particle, the tension of the string just vanishes, the horizontal velocity at the lowest point has to be