A mass `M` is suspended from a massless spring. An additional mass `m` stretches the spring further by a distance `x`. The combined mass will oscillate with a period

A mass M is suspended from a light spring. An additional mass m added to it displaces the spring further by distance x then its time period is

A body of mass m is suspended from a massless spring of natural length l . It stretches the spring through a vertical distance y . The potential energy of the stretched spring is

A mass of 2 kg is suspended from a vertical spring. An additional force of 2.5 N stretches it by 1 cm. (i) Calculate the force constant. (ii) Calculate the frequecny of oscillations, if the spring is stretched by the given force and then released.

A block with a mass of 3.00 kg is suspended from an ideal spring having negligible mass and stretches the spring by 0.2 m . (a) What is the force constant of the spring? (b) What is the period of oscillation of the block if it is pulled down and released ?

A mass M is suspended from a spring of negiliglible mass the spring is pulled a little and then released so that the mass executes simple harmonic oscillation with a time period T If the mass is increases by m the time period because ((5)/(4)T) ,The ratio of (m)/(M) is

A mass M is suspended from a spring of negligible mass. The spring is pulled a little then released, so that the mass executes simple harmonic motion of time period T . If the mass is increased by m , the time period becomes (5T)/(3) . Find the ratio of m//M .

When a mass M is suspended from a spring, its period of oscillation is 2 second. If a mass 4 M is suspended from the same spring, then its period of oscillation will be

One mass m is suspended from a spring. Time period of oscilation is T. now if spring is divided into n pieces & these are joined in parallel order then time period of oscillation if same mass is suspended.

Let T_(1) and T_(2) be the periods of springs A and B when mass M is suspended from one end of each spring. If both springs are taken in series and the same mass A is, suspended from the séries combination, the time period is T, then

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.