In the arrangement shown in the diagram,...

In the arrangement shown in the diagram, pulleys are small and springs are ideal. `k_(1)=k_(2)=k_(3)=k_(4)=10Nm^(-1)` are force constants of the springs and mass `m=10kg.` If the time period of small vertical oscillations of the block of mass m is given by `2pix` seconds, then find the value of x.

Similar Questions

Explore conceptually related problems

In the arrangement shown in figure, pulleys are light and spring are ideal. K_(1) , k_(2) , k_(3) and k_(4) are force constant of the spring. Calculate period of small vertical oscillations of block of mass m .

In the arrangement shown if Fig. Pulleys are small and lught and spring are ideal and K_1=25(pi^2)(N)/(m) , K_2=2K_1 , K_3= and K_4=4K_1 are the force constant of the spring. Calculate the period of small vertical oscillation of block of mass m=3kg .

Find the time period of oscillation of block of mass m. Spring, and pulley are ideal. Spring constant is k.

The period of oscillation of a mass M suspended from a spring of spring constant K is T. the time period of oscillation of combined blocks is

In the arrangement shown in the diagram, pulleys are small and springs are ideal. `k_(1)=k_(2)=k_(3)=k_(4)=10Nm^(-1)` are force constants of the springs and mass `m=10kg.` If the time period of small vertical oscillations of the block of mass m is given by `2pix` seconds, then find the value of x.

Similar Questions

Recommended Questions