Figure-1 to Figure -4 shows four different spring arrangements . Mass m in each arrangement is displacement from its equilibrium position and released Neglec mass of the springs. Choose the correct statement (s)

four different springs arrangements. If the mass m in each arrangement is displaced from its equilibrium position and released, what is the resulting frequency of vibration ini each case? Neglect the mass of the spring. Figure (a) and (b) represent an arrangement of springs in parallel and (c) and (d) represent springs in series?

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

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 block of mass m length force a verical of spring constant k If the block is polled down by a distance of 2mg//k from its equilibrium position and released for the subsequent in the spring to maximum compressed in it mg//k

A mass 1 kg is attaced to the hook of a spring and the spring is suspended vertically from a ceiling (see Fig. 5.12a). The spring is displaced from its equilibrium position by a distance x. The spring constant of the spring is 2.0xx10^(2)" N"//"m" . Calculate the displacement x. Figure 5-12 (a) Mass of 1 kg attached to a spring is suspended vertically. (b) Spring displace from equilibrium position by a distance x.

A body of mass m was suspended by a non-stretched spring, and then set fre without push. The stiffness of the spring is x . Neglecting the mass of the spring , find : (a) the law of motion y(t) , whee y is displacement of the body from the equilibrium position, (b) the maximum and minimum tensions of the spring in the process of motion.

Figure shows a system consisting of a massless pulley, a spring of force constant k and a block of mass m. If the block is slightly displaced vertically down from is equilibrium position and then released, the period of its vertical oscillation is

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 10 cm, then maximu speed of the trolley is

The figure shows an arrangement of mass m with three springs of different springs constant. When m is slightly displaced and then released, find the frequency of its motion.