Three arrangements of spring - mass system are shown in figures (A), (B) and ( C). If `T_(1)`, `T_(2)` and `T_(3)` represent the respective periods of oscillation, then correct relation is

Three arrangements are shown in figure. (a) A spring of mass m and stiffness k (b) A block of mass m attached to massless spring of stiffness k ( c) A block of mass (m)/(2) attached to a spring of mass (m)/(2) and stiffness k If T_(1) , T_(2) and T_(3) represent the period of oscillation in the three cases respectively, then identify the correct relation.

A mass m is attached to two springs of same force constant K, as shown in following four arrangements. If T_(1), T_(2), T_(3) and T_(4) respectively be the time periods of oscillation in the following arrangements in which case time period is maximum ?

In the arrangment shown in the figure, the ratio of tensions T_(1): T_(2) : T_(3) is:

In the arrangement shown in figure, pulleys are light and spring are ideal. K_(1) , k_(2) , k_(3) and k_(4) are force constant of the spring. Calculate period of small vertical oscillations of block of mass m .

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

A body of mass m is suspended from three springs as shown in figure. If mass m is displaced slightly then time period of oscillation is

Magnets A and B are geometrically similar but the magnetic moment of A is twice that of B . If T_(1) and T_(2) be the time periods of the oscillation when their like poles and unlike poles are kept togather respectively, then T_(1)/T_(2) will be

Figure shows the motion of a planet around the Sun S in an elliptical orbit with the Sun at the focus. The shaded areas A and B are also shown in the figure which can be assumed to be equal. If t_(1) and t_(2) represent the time taken for the planet to move from a to b and c to d , respectively then

Figure shows the motion of a planet around the Sun S in an elliptical orbit with the Sun at the focus. The shaded areas A and B are also shown in the figure which can be assumed to be equal. If t_(1) and t_(2) represent the time taken for the planet to move from a to b and c to d , respectively then

A mass is suspended separately by two different springs in successive order then time period is t_1 and t_2 respectively. If it is connected by both spring as shown in figure then time period is t_0 , the correct relation is : -