The equation of the progressive wave, where t is the time in second, x is the distance in metre is y=A cos 240left(t-frac{x}{12}right). The phase

Q: The equation of the progressive wave, where $t$ is the time in second, $x$ is the distance in metre is $y=A \cos 240\left(t-\frac{x}{12}\right)$. The phase difference (in $SI$ units) between two positions $0.5 \,m$ apart is ...........

c (c) Time $= t\;s$ Distance $= xm$ $y=A \cos 240(t-x / 12)$ Distance $=0.5 m$ $y = A \cos 240\left(\frac{240 t-240 x }{12}\right)$ To find the wavelength, $k =240 / 12$ $k =20$ $k$ is Wave number. $\lambda=2 \pi / 20$ $\lambda$ is the wavelength. $0.5 / \lambda=\theta / 2 \pi$ $0.5 /(2 \pi / 20)=\theta / 2 \pi$ $\theta=10^0$ The phase difference between two positions $0.5 m$ apart is $10^{\circ}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

The equation of the progressive wave, where $t$ is the time in second, $x$ is the distance in metre is $y=A \cos 240\left(t-\frac{x}{12}\right)$. The phase difference (in $SI$ units) between two positions $0.5 \,m$ apart is ...........

A$40$
B$20$
C$10$
D$5$

Medium

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

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