The time period of vibration of a massless elastic spring, with mass M attached to its end, increases n times when an additional mass m is attached. What is the ratio of m to M?

To one end of a massless spring, a body of mass m is attached. Now the spring is divided into two equal parts and to one of the parts the same body of mass m is attached. Determine the ratio of the frequencies of vibration in the two cases.

Time period of a spring of negligible mass, with a mass M hanging from it, is T. The time period chnages to (5T)/3 on attaching an additional mass m to it. Find out the value of m/M .

The time period of a body of mass M executing SHM, connected to a spring, is 2 s. If the mass of the body is increased by 2 kg, its time period increases by 1 s. Considering that Hooke's law is obeyed, calculate the initial mass M.

A block of mass m slides with speed v on a frictionless table towards another stationary block of mass m. A massless spring with spring constant k is attached to the second block as shown in figure. The maximum distance the spring gets compressed through is

Two particles have masses m & 4m and their kinetic energies are in the ratio 2: 1 . What is the ratio of their linear momenta?

An ideal spring with spring constant k is hung from the ceiling and a block of mass M is attached to its lower end. The mass is released when the spring is initially unstretched. Then the maximum extension in the spring is

Kinetic energies of two masses m and 2m are equal. What is the ratio of their respctive linear momenta ?