(A) In a sinusoidal wave,the motion from maximum displacement (amplitude) to zero displacement corresponds to one-quarter of the total time period $(T

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(A) In a sinusoidal wave,the motion from maximum displacement (amplitude) to zero displacement corresponds to one-quarter of the total time period $(T)$.Therefore,the time taken is $t = \frac{T}{4}$.Since the frequency ($n$ or $f$) is the reciprocal of the time period,$T = \frac{1}{n}$.Substituting this into the equation,we get $t = \frac{1}{4n}$.Rearranging for frequency,$n = \frac{1}{4t}$.Given $t = 0.170\,s$,we calculate $n = \frac{1}{4 \times 0.170} = \frac{1}{0.680} \approx 1.47\,Hz$.

Class 11 Physics Waves and Sound Wave Equation and Characteristics of Waves

Medium

In a sinusoidal wave,the time required for a particular point to move from maximum displacement to zero displacement is $0.170\,s$. The frequency of the wave is .... $Hz$.

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AIPMT 1998 All AIPMT

A
$1.47$
B
$0.36$
C
$0.73$
D
$2.94$

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In a sinusoidal wave,the time required for a particular point to move from maximum displacement to zero displacement is $0.170\,s$. The frequency of the wave is .... $Hz$.

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$A$ wave is given by $Y = 3 \sin 2 \pi \left( \frac{t}{0.04} - \frac{x}{0.01} \right)$ where $Y$ is in $cm$. The frequency of the wave and the maximum acceleration will be $(\pi^2 = 10)$.

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