Two springs of force constant k and 2k are connected to a mass shown in figure the frequency of oscillation of the mass is

Two springs of force constants k_(1) and k_(2) , are connected to a mass m as shown. The frequency of oscillation of the mass is f . If both k_(1) and k_(2) are made four times their original values, the frequency of oscillation becomes

Two springs, of force constants k_(1) and k_(2) , are connected to a mass ma as shown. The frequency of oscillation of mass is f . If both k_(1) and k_(2) are made four times their original values, the frequency of oscillation becomes

Two spring of force constants K and 2K are connected a mass m below The frequency of oscillation the mass is

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.

Two springs of force constants K_(1) " and " K_(2) are connected to a mass m as shown I the figure. If both K_(1) " and " K_(2) are made four times their original values, the frequency of oscillation becomes,

A system of springs with their spring constants are as shown in figure. What is the frequency of oscillations of the mass m ?

Two springs are jonied and connected to a mass m as shown in figure. If the force constants of the two springs are k_(1) and k_(2) , shown that frequency of oscillation of mass m is

A block of mass m is connected between two springs (constants K_(1) and K_(2) ) as shown in the figure and is made to oscillate, the frequency of oscillation of the system shall 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