In a smooth hemispherical shell of radius R, a rod of mass `(sqrt3//2)` kg is placed horizotally and is in equilibrium. The length of rod is R. Find the normal reaction at any end of the rod (in N). (Take `g=10m//s^(2))`

A rod AB of mass M and length L is shown in figure. End A of rod is hinged and end B is lying on the ground. Find the Normal reaction by ground on the rod

A rod of length l(lt2R) is kept inside a smooth sperical shell as shwon in fifure .mass of the rod is m Keeping mass to be constant I flength of the rod is increased ("but always " lt 2R ) the normal reaction at two ends of the rod

A rod of length llt2R0 is kept inside a smooth sperical shell as shwon in fifure .mass of the rod is m . The normal reaction when l=R is

One fourth length of a uniform rod of length 2l and mass m is place don a horizontal table and the rod is held horizontal. The rod is released from rest. Find the normal reaction on the rod as soon as the rod is released.

A rod OA of mass 4 kg is held in horizontal position by a massless string AB as shown in figure. Length of the rod is 2 m . Find (a) tension in the string (b) net force exerted by hings on the rod. (g = 10 m//s^(2))

A metal rod of length 50cm having mass 2kg is supported on two edges placed 10cm from each end. A 3kg load is suspended at 20cm from one end. Find the reactions at the edges (take g=10m//s^(2) )

A metal rod of length 50cm having mass 2kg is supported on two edges placed 10cm from each end. A 3kg load is suspended at 20cm from one end. Find the reactions at the edges (take g=10m//s^(2) )

A uniform rod of length L pivoted at the bottom of a pond of depth L//2 stays in stable equilibrium as shown in the figure. Find the force acting at the pivoted end of the rod in terms of mass m of the rod.

A uniform thin rod of mass m and length R is placed normally on surface of earth as shown. The mass of earth is M and its radius is R. If the magnitude of gravitational force exerted by earth on the rod is (etaGMm)/(12R^(2)) then eta is

A uniform thin rod of mass m and length R is placed normally on surface of earth as shown. The mass of earth is M and its radius is R. If the magnitude of gravitational force exerted by earth on the rod is (etaGMm)/(12R^(2)) then eta is