Question:
In Melde's experiment, the string vibrates in 4 loops when a 50 g weight is placed in the pan of weight 15 g. To make the strings to vibrates in 6iJoops the weight that has to be removed from the pan is
In Melde's experiment, the string vibrates in 4 loops when a 50 g weight is placed in the pan of weight 15 g. To make the strings to vibrates in 6iJoops the weight that has to be removed from the pan is
Updated On: Feb 9, 2024
- 0.0007 kg-wt
- 0.0021 kg-wt
- 0.036 kg-wt
- 0.0029 kg-wt
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The Correct Option is C
Solution and Explanation
The transverse vibrations of a string are determined by Melde's method.
The frequency of vibration of a string of length l, mass per unit length m and vibrating in p loops under tension T is given by
$\hspace40mm n_= \frac{P}{2l} \sqrt{\frac{T}{m}} $
or $\hspace30mm p \sqrt T = constant $
If n, l and m are constant.
Hence, $\hspace30mm T \propto \frac{1}{p^2} $
$\therefore \hspace30mm \frac{T_1}{T_2} = \frac{p^2_2}{p^2_1}$
or $\hspace20mm \frac{(50+15)}{T_2} = \frac{(6)^2}{(4)^2}$
or $\hspace30mm \frac{65}{T_2} = \frac{36}{16}$
$\therefore\hspace30mm T_2 = \frac{65 \times 16 }{36} = 29g$
So, weight removed from the pan
$\hspace45mm = 65 - 29 = 36g$
$\hspace45mm = 0.036\, kg-wt $
The frequency of vibration of a string of length l, mass per unit length m and vibrating in p loops under tension T is given by
$\hspace40mm n_= \frac{P}{2l} \sqrt{\frac{T}{m}} $
or $\hspace30mm p \sqrt T = constant $
If n, l and m are constant.
Hence, $\hspace30mm T \propto \frac{1}{p^2} $
$\therefore \hspace30mm \frac{T_1}{T_2} = \frac{p^2_2}{p^2_1}$
or $\hspace20mm \frac{(50+15)}{T_2} = \frac{(6)^2}{(4)^2}$
or $\hspace30mm \frac{65}{T_2} = \frac{36}{16}$
$\therefore\hspace30mm T_2 = \frac{65 \times 16 }{36} = 29g$
So, weight removed from the pan
$\hspace45mm = 65 - 29 = 36g$
$\hspace45mm = 0.036\, kg-wt $
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