A particle of mass `m` oscillates along the horizontal diameter AB inside a smooth spherical shell of radius R. At any instant the kinetic energy of the particle is K. Then, the force applied by the particle on the shell at this instant is

A partical of mass m oscillates along the horizontal diameter AB inside a smooth spherical AB inside a smooth sperical shell of radius R . At any instate K.E. of the partical is K . Then force applied by partical on the on the shell at this instant is:

A partical of mass m oscillates along the horizontal diameter AB inside a smooth spherical AB inside a smooth sperical shell of radius R . At any instate K.E. of the partical is K . Then force applied by partical on the on the shell at this instant is:

A particle of mass m oscillates inside a smooth spherical shell of radius R and starts its motion from point B . At given instant the kinetic energy of the particle is K . Then the force applied by particle on the shell at this instant is :-

A particle is given an intial soeed u inside a smooth spherical shell of radius R so that it is justable to compelte the circle. Acceleration of the particle, when its velocity is vertical, is

A particle of mass m oscillates inside the smooth surface a fixed pipe of radius R . The axis of the pipe is horizontal and the particle moves from B to A and back. At an instant the kinetic energy of the particle is K (say at position of the particle shown in figure ). Then choose the correct value of force applied by particle on the pipe at this instant.

A particle is given an initial speed u inside a smooth spherical shell of radius R=1 m such that it is just able to complete the circle. Acceleration of the particle when its velocity is vertical is

A particle of mass M is at a distance a from surface of a thin spherical shell of equal mass and having radius a .

A particle of mass M is at a distance a from surface of a thin spherical shell of equal mass and having radius a .

A point mass m is placed inside a spherical shell of radius R and mass M at a distance R/2 form the centre of the shell. The gravitational force exerted by the shell on the point mass is

A particle of mass m is revolving in a horizontal circle of radius r under a centripetal force k//r^(2) where k is a constant. What is the total energy of the particle ?