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 ?

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

The figure shows the arrangement of block of mass m with one or more identical springs in three different ways . If Force cosntant of each springs is K and T_(1) , T_(2) and T_(3) are the time periods of oscillations of the arrangement 1, 2, and 3, respectibely, then

A block of mass m is suspended by different springs of force constant shown in figure. Let time period of oscillation in these four positions be T_(1),T_(2),T_(3) "and" T4 Then -

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.

The graph between period of oscillation (T) and mass attached (m) to a spring will be

Period of small oscillations in the two cases shown in figure is T_(1) and T_(2) respectively . Assume fluid does not have any viscosity , then

A simple harmonic motion oscillator has two springs of spring constant k and other two of spring constant 2k, arranged as shown in the figure. Calculate the time period of oscillator.

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