A mass `m` is suspended separately by two different springs of spring constant `k_(1)` and `k_(2)` given the time period `t_(1)` and`t_(2)` respectively. If the same mass `m` is shown in the figure then time period `t` is given by the relation

A mass is suspended separately by two different springs in successive order, then time periods is t_(1) "and" t_(2) respectively. It is connected by both springs as shown in fig. then time period is t_(0) . The correct relation is

A mass is suspended separately by two springs of spring constants k_(1) and k_(2) in successive order. The time periods of oscillations in the two cases are T_(1) and T_(2) respectively. If the same mass be suspended by connecting the two springs in parallel, (as shown in figure) then the time period of oscillations is T. The correct relations is

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 :-

Two spring of spring constants k_(1) and k_(2) ar joined and are connected to a mass m as shown in the figure. Calculate the frequency of oscillation of mass m.

A mass m is suspended from the two coupled springs connected in series. The force constant for spring are k_(1) and k_(2) . The time period of the suspended mass will be:

A mass m is suspended from the two coupled springs connected in series. The force constant for springs are k_(1) "and" k_(2). The time period of the suspended mass will be

A mass M is suspended by two springs of force constants K_(1) and K_(2) respectively as shown in the diagram. The total elongation (stretch) of the two springs is

A mass is suspended separately by two springs and the time periods in the two cases are T_(1) and T_(2) . Now the same mass is connected in parallel (K = K_(1) + K_(2)) with the springs and the time is suppose T_(P) . Similarly time period in series is T_(S) , then find the relation between T_(1),T_(2) and T_(P) in the first case and T_(1),T_(2) and T_(S) in the second case.