The velocity v of a de Broglie wave is given | vedclass

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(C) The de Broglie hypothesis proposes that all matter exhibits wave-like properties and relates the observed wavelength of matter to its momentum.$\l

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$\frac{hu}{mC}$

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(C) The de Broglie hypothesis proposes that all matter exhibits wave-like properties and relates the observed wavelength of matter to its momentum.$\lambda = \frac{h}{mv}$,where $\lambda$ is the wavelength of the particle wave and $v$ is the velocity of the particle.Also,we know that frequency $u = \frac{C}{\lambda}$,which implies $\lambda = \frac{C}{u}$.Substituting $\lambda$ in the de Broglie equation: $\frac{C}{u} = \frac{h}{mv}$.Rearranging this equation to solve for velocity $v$:$v = \frac{hu}{mC}$

The velocity $v$ of a de Broglie wave is given by
$\left[ \begin{array}{c} u = \text{Frequency} \\ m = \text{mass} \\ C = \text{Velocity of light} \end{array} \right]$

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The velocity $v$ of a de Broglie wave is given by$\left[ \begin{array}{c} u = \text{Frequency} \\ m = \text{mass} \\ C = \text{Velocity of light} \end{array} \right]$