A rod of mass 'M' and length'
L' is hinged about one end and a
particle of mass 'M' is
attached to its other end If it is
kept horizontal with the help of
a spring of spring constant 'K'
as shown in fig. find the
extension in spring :-

In the figure a uniform rod of mass 'm' and length 'l' is hinged at one end and the other end is connected to a light vertical of spring constant 'k' as shown in figure. The spring has extension such that rod is equilibrium when it is horizontal . The rod rotate about horizontal axis passing through end 'B' . Neglecting friction at the hinge find (a) extension in the spring (b) the force on the rod due to hinge.

A rod of mass M and length L is hinged at its one end and carries a particle of mass m at its lower end. A spring of force constant k_(1) is installed at distance a from the hinge and another of force constant k_(2) at B distance b as shown in the figure. If the whcich arrangement rests on a smoth horizontal table top, the frequency of vibration is :

A rod of mass M and length L is hinged at its one end and carries a particle of mass m at its lower end. A spring of force constant k_(1) is installed at distance a from the hinge and another of force constant k_(2) at B distance b as shown in the figure. If the whcich arrangement rests on a smoth horizontal table top, the frequency of vibration is :

An ideal spring with spring constant k is hung from the ceiling and a block of mass M is attached to its lower end. The mass is released with the spring initially unstretched. Then the maximum extension in the spring is

A uniform rod of mass 2m and length L is hinged at one end and carries a particle of mass m at the other end.Two springs each of force constant k are installed at distances as shown.The whole arrangement rests on a smooth horizontal surface.The frequency of small oscillations will be?

An ideal spring with spring - constant K is bung from the colling and a block of mass M is attached to its lower end the mass is released with the spring initally unstetched . Then the maximum exlemsion in the spring is

A rod of mass M and length K is hinged at its one end n carris a block f mass m at its other end. A spring of force constant k_(1) is installed at distance a form the hinge and another of force constant k_(2) at a distance b as shown in the figure. If the whole arrangement rests on a smoth horizontal table top. Find the frequency of vibrations.

A rod mass (M) hinged at (O) is kept in equilibrium with a spring of stiffness (k) as shown in figure. The potential energy stored in the spring is .

A rod of mass m and length L is kept on a horizontal smooth surface. The rod is hinged at its one end A . There are two springs, perpendicular to the rod, kept in the same horizontal plane. The spring of spring constant k is rigidly attached to the lower end of rod and spring of spring constant 12k just touches the rod at its midpoint C , as shown in the figure. If the rod is slightly displaced leftward and released then, the time period for small osciallation of the rod will be