Two springs of spring constant `1500 Nm^(-1)`, respectively are stretched with the same force, slowly. Compute the ratio of their potential energies.

Two springs of spring constants 1000 N/m and 2000 N/m respectively, are stretched with the same force. The ratio of their potential energies will be

Two springs of spring constants 1500N//m and 3000N//m respectively are streched by the same force. The potential energy gained by the two springs will be in the ratio

Two springs of spring constants 1000 N m^(-1) and 2000 N m^(-1) are stretched with same force. They will have potential energy in the ratio of

Two springs with spring constants m K _(1) = 1500 N//m and m K_(2) = 3000 N//m are stretched by the same force. The ratio of potential energy stored in spring will be

Two springs of spring constants 500Nm^(-1) and 500Nm^(-1) are stretched with force 100N and 200N respectively They have potential energy in the ratio of ?

Two springs of force constants 1000N//m and 2000N//m are stretched by same force. The ratio of their respective potential enegries is

Match the following {: ( "Column I", " Column II"),(" (A) Example of conservative force ", "(p) Work done by all forces " ) ,("(B) Potential energy defined for only " , "(q) Force constant (spring constant)"), ("(C ) If two spring are stretched by same force, then ratio of their potential energy is in the inverse ratio of their " , "(r) Gravitational force"),("(D) Change in kinetic energy is equal ", "(s) Conservative force"):}

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