When a mass \( \mathrm{m} \) is connected individually with two springs \( S_{1} \) and \( S_{2}...

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When a mass \( \mathrm{m} \) is connected individually with two springs \( S_{1} \) and \( S_{2} \), the oscillation frequencies
\( \mathrm{P} \) are \( n_{1} \) and \( n_{2} \). If the mass \( m \) is attached to the W springs as shown in figure, the oscillation frequency would be :-
(1) \( n_{1}+n_{2} \)
(2) \( \sqrt{\mathrm{n}_{1}^{2}+\mathrm{n}_{2}^{2}} \)
(3) \( \left(\frac{1}{n_{1}}+\frac{1}{n_{2}}\right)^{-1} \)
(4) \( \sqrt{\mathrm{n}_{1}^{2}-\mathrm{n}_{2}^{2}} \)
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