A mass `M`, attached to a horizontal spring, excutes `SHM` with a amplitude `A_(1)`. When the mass `M` passes through its mean position then a smaller mass `m` is placed over it and both of them move together with amplitude `A_(2)`, the ratio of `((A_(1))/(A_(2)))` is :

A mass (M), attached to a horizontal spring, executes S.H.M. whith amplitude A_(1). When the mass (M) passes throgh its mean position then shaller mass (m) is placed over it and both of them move together with amplitude A_(2). The ration of.

A mass M attached to a horizontal spring executes SHM with an amplitude A_(1) . When mass M passes through its mean position a smaller mass m is placed over it and both of them move togther with amplitude A_(2) . Ratio of ((A_(1))/(A_(2))) is:

A mass M attached to a horizontal spring executes SHM with an amplitude A_(1) . When mass M passes through its mean position a smaller mass m is placed over it and both of them move togther with amplitude A_(2) . Ratio of ((A_(1))/(A_(2))) is:

A mass M attached to a horizontal spring executes SHM with an amplitude A_(1) . When mass M passes through its mean position a smaller mass m is placed over it and both of them move togther with amplitude A_(2) . Ratio of ((A_(1))/(A_(2))) is:

A mass m_(1) connected to a horizontal spring performs a S.H.M. with an amplitude A. While the mass m_(1) is pas"sin"g through the mean position, another mass m_(2) is placed on it so that both the masses move together with amplitude A_(1) . The ratio of (A_(1))/(A) " is " (m_(2) lt m_(1)) .