When a block of mass m is suspended separately by two different springs have time period `t_(1)" and "t_(2)`. If same mass is connected to parallel combination of both springs, then its time period is given by :-

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

Periodic time of oscillation T_1 is obtained when a mass is suspended from a spring if another spring is used with same mass then periodic time of oscillation is T_2 . Now if this mass is suspended from series combination of above spring then calculate the time period.

The time period of mass suspended from a spring is T. If the spring is cut into four equal parts and the same mass is suspended from one of the parts, then the new time period will be…….

When a mass m is connected individually to two springs S_(1)" and "S_(2) the oscillation frequencies are v_(1)" and "v_(2) . If the same mass is attached to the two springs as shown in figure, the oscillation frequency would be

A block P of mass m is placed on horizontal frictionless plane. A second block of same mass m is placed on it and is connected to a spring of spring constant k, the two blocks are pulled by distance A. Block Q oscillates without slipping. What is the maximum value of frictional force between the two blocks.

When body of mass m is suspended from a spiral spring and spring gets stretched through a distance 20 cm if it is stretched below 20 cm and leave then what is period of oscillation?

If the period of oscillation of mass m suspended from a spring 2s, then period of mass 4 m will be….

If a spring has time period T, and is cut into (n) equal parts, then the time period of each part will be.

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

Time period of a spring mass system can be changed by