A mass M attached to a spring oscillation with a period of `2 s`. If the mass is increased by `2 kg` , the period increases by 1s, find the initial mass m assuming that Hooke's low is obeyed.

A mass M attached to a spring oscillation with a period of 2 s . If the mass is increased by 2 kg , the period increases by 1s, find the initial mass m assuming that Hooke's law is obeyed.

A mass M attached to a spring oscillates with a period of 2s. If the mass is increased by 2 kg, then the period increases by 2s. Find the initial mass M assuming that Hooke's law is obeyed.

A mass m attached to a spring oscillates with a period 2s. If the mass is increased by 2kg, the period increases by 1s. Find the initial mass m, asssuming that Hooke's law is obeyed.

A mass M attached to a spring oscillates with a period of 2 sec . If the mass is increased by 2 kg , the period increase by the second. Find the initial mass m assuming that Hook's law is obeyed.

A mass (M) attached to a spring, oscillates with a period of (2 sec). If the mass in increased by (2 kg) the period increases by one sec. Find the initial mass (M) assuming that Hook's Law is obeyed.

A mass (M) attached to a spring, oscillates with a period of (2 sec). If the mass in increased by (2 kg) the period increases by one sec. Find the initial mass (M) assuming that Hook's Law is obeyed.

A mass m attached to a spring oscillates with a period of 3s . If the mass is increased by 1kg the period increases by 1s . The initial mass m is

A mass m attached to a light spring oscillates with a period of 2 s. If the mass is increased by 2 kg, the period increases by 1 s. Then the value of m is

A mass m attached to a spring oscillates with a period of 2 seconds. If the mass is increased by 2 kg, the period increases by one second. Find the mass m.