A thin uniform vertical rod of mass `m` and length l pivoted at point O is shown is Fig. The combined stiffness of the springs is equal to `k`. The mass of the spring is negligible. Te frequency of small oscillation is .

A thin uniform vertical rod of mass m and length l pivoted at point O is shown in Fig. The combined stiffness of the springs is equal to k . The mass of the springs is negligible. The angular frequency of small oscillation is

Find the frequency of small oscillatinos of a thin uniform vertical rod of mass m and length l hinged at the point O (figure). The combined stiffness fo the springs is equal to x . The mass of the springs is negligible.

If the angular frequency of small oscillations of a thin uniform vertical rod of mass m and length l hinged at the point O (Fig.) is sqrt((n)/(l)) , then find n . The force constant for each spring is K//2 and take K = (2mg)/(l) . The springs are of negiligible mass. (g = 10 m//s^(2))

If the angular frequency of small oscillations of a thin uniform vertical rod of mass m and length l hinged at the point O (Fig.) is sqrt((n)/(l)) , then find n . The force constant for each spring is K//2 and take K = (2mg)/(l) . The springs are of negiligible mass. (g = 10 m//s^(2))

If the angular frequency of small oscillations of a thin uniform vertical rod of mass m and length l hinged at the point O (Fig.) is sqrt((n)/(l)) , then find n . The force constant for each spring is K//2 and take K = (2mg)/(l) . The springs are of negiligible mass. (g = 10 m//s^(2))

Find the frequency of small oscillations of thin uniform vertical rod of mass m and length l hinged at the point O.

A straight rod of light L and mass m is pivoted freely from a point of the roof. Its lower end is connected to an ideal spring of spring constant K. The other end of the spring is connected to the wall as shown in the figure. Find the frequency of small oscillation of the system.

A spring of force constant k is cut into two equal parts, and mass 'm' is suspended from parallel combination of the springs. Then frequency of small osciollations is