Question

A heavy ball of mass $$M$$ is suspended from the ceiling of a car by a light string of mass $$m\left( {m \ll M} \right).$$   When the car is at rest, the speed of transverse waves in the string is $$60\,m{s^{ - 1}}.$$  When the car has acceleration $$a,$$ the wave-speed increases to $$60.5\,m{s^{ - 1}}.$$  The value of $$a,$$ in terms of gravitational acceleration $$g,$$ is closest to :

A. $$\frac{g}{{30}}$$
B. $$\frac{g}{{5}}$$  
C. $$\frac{g}{{10}}$$
D. $$\frac{g}{{20}}$$
Answer :   $$\frac{g}{{5}}$$
Solution :
Wave speed $$V = \sqrt {\frac{T}{\mu }} $$
when car is at rest $$a = 0$$
$$\therefore \,\,60 = \sqrt {\frac{{Mg}}{\mu }} $$
Similarly when the car is moving with acceleration $$a,$$
$$60.5 = \sqrt {\frac{{M{{\left( {{g^2} + {a^2}} \right)}^{\frac{1}{2}}}}}{\mu }} $$
on solving we get
$$a = \frac{g}{{\sqrt {30} }}\left[ {{\text{which is closest to }}\frac{g}{5}} \right]$$

Releted MCQ Question on
Oscillation and Mechanical Waves >> Waves

Releted Question 1

A cylindrical tube open at both ends, has a fundamental frequency $$'f'$$ in air. The tube is dipped vertically in air. The tube is dipped vertically in water so that half of it is in water. The fundamental frequency of the air column in now

A. $$\frac{f}{2}$$
B. $$\frac{3\,f}{4}$$
C. $$f$$
D. $$2\,f$$
View Answer
Releted Question 2

A wave represented by the equation $$y = a\cos \left( {k\,x - \omega t} \right)$$    is superposed with another wave to form a stationary wave such that point $$x = 0$$  is a node. The equation for the other wave is

A. $$a\sin \left( {k\,x + \omega t} \right)$$
B. $$ - a\cos \left( {k\,x - \omega t} \right)$$
C. $$ - a\cos \left( {k\,x + \omega t} \right)$$
D. $$ - a\sin \left( {k\,x - \omega t} \right)$$
View Answer
Releted Question 3

An object of specific gravity $$\rho $$ is hung from a thin steel wire. The fundamental frequency for transverse standing waves in the wire is $$300\,Hz.$$  The object is immersed in water so that one half of its volume is submerged. The new fundamental frequency in $$Hz$$  is

A. $$300{\left( {\frac{{2\,\rho - 1}}{{2\,\rho }}} \right)^{\frac{1}{2}}}$$
B. $$300{\left( {\frac{{2\,\rho }}{{2\,\rho - 1}}} \right)^{\frac{1}{2}}}$$
C. $$300\left( {\frac{{2\,\rho }}{{2\,\rho - 1}}} \right)$$
D. $$300\left( {\frac{{2\,\rho - 1}}{{2\,\rho }}} \right)$$
View Answer
Releted Question 4

A wave disturbance in a medium is described by $$y\left( {x,t} \right) = 0.02\cos \left( {50\,\pi t + \frac{\pi }{2}} \right)\cos \left( {10\,\pi x} \right)$$        where $$x$$ and $$y$$ are in metre and $$t$$ is in second

A. A node occurs at $$x = 0.15\,m$$
B. An antinode occurs at $$x = 0.3\,m$$
C. The speed wave is $$5\,m{s^{ - 1}}$$
D. The wave length is $$0.3\,m$$
View Answer

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