A body of mass `1 kg` suspended an ideal spring oscillates up and down. The amplitude of oscillation is `1` metre and the periodic time is `1.57` second. Determine.

A body of mass 1 kg suspended an ideal spring oscillates up and down. The amplitude of oscillation is 1 metre and the time periodic is 1.57 second. Determine.

Mass suspended to a spring is pulled down by 2.5 cm and let go. The mass oscillates with an amplitude of

Mass suspended to a spring is pulled down by 2.5 cm and let go. The mass oscillates with an amplitude of

A period of oscillation of a mass m kg is suspended by an ideal spring is 1.5s. If an additional mass 3kg be suspended, the time period is increased by 1s. Find the value of m.

A body of mass m is suspended from vertical spring and is set into simple harmonic oscillations of time period T. Next the spring is fixed at one end on a smooth horizontal table and same body is attached at the other end. The body is pulled slightly and then released to produce horizontal oscillations of the spring. The time period of horizontal oscillations is

A body of mass m is suspended from vertical spring and is set into simple harmonic oscillations of time period T. Next the spring is fixed at one end on a smooth horizontal table and same body is attached at the other end. The body is pulled slightly and then released to produce horizontal oscillations of the spring. The time period of horizontal oscillations is

A mass is suspended from the end of a spring. When the system is oscillating the amplitude of oscillation is 4 cm and maximum kinetic energy of oscillation of the system is 1J. Then the force constant of the spring is

A body of mass m is suspended from three springs as shown in figure. If mass m is displaced slightly then time period of oscillation is

A body of mass m is suspended from three springs as shown in figure. If mass m is displaced slightly then time period of oscillation is

A block of mass M suspended from a spring oscillates with time period T . If spring is cut in to two equal parts and same mass M is suspended from one part, new period os oscillation is