Figure shows a particle mass `m = 100g` attaches with four identical spring , each of length `l = 10 cm` . Initial tension in each spring is `F_(0) = 25 N`. Neglecting gravity , Calculate the period of small oscillation of the particle along a line perpendicular to the plane of the figure .

figure shown a partical mass m = 100g attaches with four identical spring , each of length l = 10 cm . Initial tension in each spring is F_(0) = 25 N . Neglecting gravity , Calculate the period of small oscillation of the article along a line perpendicular to the plane of the figure .

Disregarding gravity, find the period of oscillation of the particle connected with four springs as shown in the figure. (given : theta = 45^(@). beta = 30^(@))

A ball of mass, m is attractive to two springwhich are already stretched so that each pulls on to ball with a force F. length of each spring . In this Determine the period of small oscillations of the ball in a difference perpendicular of length of psirng. Difference of the mass of spring and gravity .

A particle of mass 'm' is attached to three identical springs A,B and C each of force constant 'K' as shown in figure. If the particle of mass 'm' is pushed slightly against the spring 'A' and released the period of oscillations is

A particle of mass 'm' is attached to three identical springs A,B and C each of force constant 'K' as shown in figure. If the particle of mass 'm' is pushed slightly against the spring 'A' and released the period of oscillations is

A particle of mass m is attached with three springs A,B and C of equal force constancts k as shown in figure. The particle is pushed slightly against the spring C and released. Find the time period of oscillation. .

A particle of mass m is attached to three springs A,B and C of equal force constants k as shown in figure. If the particle is pushed slightly against the spring C and released, find the time period of oscillation.

A mass of 1.5 kg is connected to two identical springs each of force constant 300 Nm^(-1) as shown in the figure. If the mass is displaced from its equilibrium position by 10cm, then the period of oscillation is

In the figure, a block of mass m is rigidly attached to two identical springs of stiffness k each. The other ends of the springs are connected to the fixed wall. When the block is in equilibrium, length of each spring is b, which is greater than the natural length of the spring. The time period of the oscillation of the block if it is displaced by small distance perpendicular to the length of the springs and released. Space is gravity free.

A cabin is moving in a gravity free space along y-axis with an acceleration a. What is the time period of oscillation of a particle of mass m attached with an inextensible string of length l, in this cabin