A large sphere of radius R =1m fixed from ground .A particle of mass m is released from top point of sphere .Height from the ground where particle m will leave contact with the surface is `frac{XR}{3}`. Find the value of X (Assume all surfaces are frictionless.)

A block of mass 1 kg is released from the top of a wedge of mass 2 kg. Height of wedge is 10 meter and all the surfaces are frictionless. Then

A particle is released at point A. Find Kinetic energy at point P Given m = 1 kg and all surfaces are frictionless

A particle is released at point A. Find Kinetic energy at point P Given m = 1 kg and all surfaces are frictionless

A particle of mass m starts to slide down from the top of the fixed smooth sphere. What is the tangential acceleration when it break off the sphere ?

A particle A of mass m is situated at highest point of wedge B of mass 2m is released from rest. Then distance travelled by wedge B ( with respect to ground ) when particle A reaches at lowest position. Assume all surfaces are smooth.

A solid sphere of mass m and radius r is placed inside a hollow thin spherical shell of mass M and radius R as shown in the figure. A particle of mass m' is placed on the line joining the two centres at a distance x from the point of contact of the sphere and the shell. Find the magnitude of the resultant gravitational force on this particle due to the sphere and the shell if rltxlt2r

A solid sphere of mass m and radius r is placed inside a hollow thin spherical shell of mass M and radius R as shown in the figure. A particle of mass m' is placed on the line joining the two centres at a distance x from the point of contact of the sphere and the shell. Find the magnitude of the resultant gravitational force on this particle due to the sphere and the shell if xgt2R

a solid sphere of mass m and radius r is placed inside a hollow thin spherical shell of mass M and radius R as shown in figure. A particle of mass m is placed on the line joining the two centers as a distance x from the point of contact of the sphere and the shell. Find the magnitude of the resultant gravitational force on this particle due to the sphere and the shell if a). rltxlt2r, b). 2rltxlt2R and c). xgt2R .

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 .