An L-shaped bar of mass M is pivoted at ...

An L-shaped bar of mass M is pivoted at one of its end so that it can freely rotate in a vertical plane, as shown in the figure
a. Find the value of `theta_(0)` at equilibrum
b. If it is slighly displacement from its equilibrum position, find the frequency of oscillation.

Similar Questions

Explore conceptually related problems

A L -shaped bar of mass M is pivoted at one of its end so that it can freely rotate in a vertical plane as shwon. If it is slightly displaced from its equilibrium position then the frequency of oscillation is…….

A block of mass m hangs from a vertical spring of spring constant k. If it is displaced from its equilibrium position, find the time period of oscillations.

A rigid rod of mass m with a ball of mass M attached to the free end is restrained to oscillate in a vertical plane as shown in the figure. Find the natural frequency of oscillation.

A uniform semicircular ring of mass m and radius r is hinged at end A so that it can rotate freely about end A in the vertical plane as shown in the figure. Calculate angle made by line AB with vertical in equilibrium position and time period of small oscillation of ring.

Find the time period of mass M when displaced from its equilibrium position and then released for the system shown in figure.

An L-shaped bar of mass M is pivoted at one of its end so that it can freely rotate in a vertical plane, as shown in the figure a. Find the value of `theta_(0)` at equilibrum b. If it is slighly displacement from its equilibrum position, find the frequency of oscillation.

Similar Questions

Recommended Questions

An L-shaped bar of mass M is pivoted at one of its end so that it can freely rotate in a vertical plane, as shown in the figure
a. Find the value of `theta_(0)` at equilibrum
b. If it is slighly displacement from its equilibrum position, find the frequency of oscillation.