(A) The given wave function is $y(x, t) = e^{-(\sqrt{a}x + \sqrt{b}t)^2}$.For a wave to travel, the argument of the function must be of the form $(x \

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wave moving in negative $x$-direction with speed $\sqrt{\frac{b}{a}}$

(A) The given wave function is $y(x, t) = e^{-(\sqrt{a}x + \sqrt{b}t)^2}$.For a wave to travel, the argument of the function must be of the form $(x \pm vt)$.We can rewrite the exponent as $-(\sqrt{a}(x + \sqrt{\frac{b}{a}}t))^2$.This is in the form $f(x + vt)$, where $v = \sqrt{\frac{b}{a}}$.A function of the form $f(x + vt)$ represents a wave traveling in the negative $x$-direction with speed $v = \sqrt{\frac{b}{a}}$.

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

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The transverse displacement $y(x, t)$ of a wave on a string is given by $y(x, t) = e^{-(ax^2 + bt^2 + 2\sqrt{ab}xt)}$. This represents a

TS EAMCET 2020 All TS EAMCET

A
wave moving in negative $x$-direction with speed $\sqrt{\frac{b}{a}}$
B
standing wave of frequency $\sqrt{b}$
C
standing wave of frequency $\frac{1}{\sqrt{b}}$
D
wave moving in positive $x$-direction with speed $\sqrt{\frac{b}{a}}$

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Waves and Sound

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Wave Equation and Characteristics of Waves

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