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, 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, 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, connected to a horizontal spring performs SHM with amplitude A. While mass m, is passing through mean position, another mass m, is placed on it so that both the masses move together with amplitude A,. The ratio of

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)) .