The wavelength of the wave associated with a moving electron depends on

According to de Broglie, what is the relation between the wave length of the wave associated with the moving electron and momentum of the f electron?

The wavelength lambda associated with a moving electron depends on its mass m , its velocity v and Planck's constant h . Prove dimensionally that lambda prop (h)/(mv) .

Wavelength of the wave associated with a moving electron (A) Increases with increase in speed of electron (B) Decreases with increase in speed of electron (C) Remains same irrespective of speed of electron (D) Remains zero

The wavelength lambda of de Broglie waves associated with an electron (mass m , charge) accelerated through a potential difference of V is given by ( h is planck's constant):

The wavelength associated with a moving particle depends upon p^(th) power of its mass m, q^(th) power of its velocity v and power of plank's constant h Then the corrent set of valume of p,q and r is

A body of mass 10 mg is moving with a velocity of 100 ms^(-1) . The wavelength of the de Broglie wave associated with it would be