Potential energy of an ideal spring, when stretched by 1 cm is U. Spring is now cut in two equal parts and connected in parallel. If the new combination of spring is compressed by 2 cm, then potential energy stored is

The potential energy of a long spring when stretched by 2 cm is U. If the spring is stretched by 8 cm the potential energy stored in it is:-

The time period of a spring mass system of spring constant k and mass m is T. Now, the spring is cut into two equal parts and connected in parallel. If the same mass is attached to new arrangement, then new time period is

The potential energy of a spring is the minimum when it is

The potential energy of a weight less spring compressed by a distance a is proportional to

A light spring of spring constant k is cut into two equal halves. Each half is connected in parallel then net spring constant of the combination is :

A long spring is stretched by 2 cm, its potential energy is U. IF the spring is stretched by 10 cm, the potential energy stored in it will be

A light spring of force constant 8 Nm^(-1) is cut into two equal halves and the two are connected in parallel, the equivalent force constant of the system is

When a long spring is stretched by 2 cm, its potential energy is V. If the spring is stretched by 10 cm, the potential energy in it will be

A long spring when stretched by x cm , has a potential energy U . On increasing the stretching to nx cm, the potential energy stored in spring will be

If the potential energy of a spring is V on stretching it by 2cm , then its potential energy when it is stretched by 10cm will be