A plane progressive wave is represented by the equation y = 0.1sin left( {200pi t - frac{{20pi x}}{{17}}} right) where y is displacement in m,

Q: A plane progressive wave is represented by the equation $y = 0.1\sin \left( {200\pi t - \frac{{20\pi x}}{{17}}} \right)$ where y is displacement in $m$, $ t$ in second and $x$ is distance from a fixed origin in meter. The frequency, wavelength and speed of the wave respectively are

a (a) Comparing the given equation with standard equation We get $\omega = 2\pi n = 200\pi $ ==> $ n = 100 Hz$ $k = \frac{{20\pi }}{{17}}$ ==> $\lambda = \frac{{2\pi }}{k} = \frac{{2\pi }}{{20\pi /17}} = 1.7\,m$ and $v = \frac{\omega }{k} = \frac{{200\,\pi }}{{20\pi /17}} = 170\,m/s.$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A plane progressive wave is represented by the equation $y = 0.1\sin \left( {200\pi t - \frac{{20\pi x}}{{17}}} \right)$ where y is displacement in $m$, $ t$ in second and $x$ is distance from a fixed origin in meter. The frequency, wavelength and speed of the wave respectively are

A$100 Hz, 1.7 m, 170 m/s$
B$150 Hz, 2.4 m, 200 m/s$
C$80 Hz, 1.1 m, 90 m/s$
D$120 Hz, 1.25 m, 207 m/s$

Medium

STD 11 Science
NEET
STD 11 - 14. waves and sound
Physics

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