Two spring P and Q having stiffness constants `k_1` and `k_2(ltk_1)`, respectively are stretched equally. Then

Two springs have their force constant as k_(1) and k_(2) (k_(1) gt k_(2)) . When they are stretched by the same force.

This question has statement 1 and statement 2 . Of the four choice given after the Statement , choose the one that best describe the two Statement . If the spring S_(1) and S_(2) of force constant k_(1) and k_(2) respectively , are streached by the same force , it is found that more work is done on spring S_(1) then on spring S_(2) Statement -1: If statement by the same answer work done on S_(1) work on S_(1) is more then S_(2) Statement - 2 : k_(1) ltk_(2)

Two similar springs P and Q have spring constants K_(P) and K_(Q) . They are stretched first by the same amount ( case a) ,then by the same force ( case b) . The work done by the spring W_(P) and W_(Q) are relased as, in case (a) and case (b) , respectively.

Two strings A and B have force constants k_1 and k_2 respectively. The ratio of the work done on A to that done on B when they are stretched by the same force is

Two spring have their force constants K_(1) and K_(2)(K_(2) gt K_(1)) . When they are stretched by the same force, work done is

Two spring have force constants k_(1) and k_(2) respectively. They are attached to a mass m and two fixed supports as shwon in figure. If the surface is frictionless, fing the time period of oscillations. What is the spring factore of this combination.