Wave length associated with electron motion

Calculate the number of waves made by a Bohr electron in one complete revolution in nth orbit of He^(+) ion, if ratio of de-Broglie wavelength associated with electron moving in n^(th) orbit and 2^(nd) orbit is 2.0 :-

In the Bohr model of hydrogen atom, the electron is pictured to rotate in a circular orbit of radius 5xx 10^-11 m , at a speed 2.2 xx 10^6 m/ s. What is the current associated with electron motion?

What are matter waves? Show that de-Broglie wavelength associated with an electron of energy, V-electron volt is approx. 12.27/(sqrtV) Å .

de-Broglie equation describes the relationship of wavelength associated with the motion of an electron and its

Prove that Bohr’s condition for quantization of angular momentum in hydrogen atom can be obtained by requiring an integer number of standing waves around an electron orbit. Use de-Broglie wavelength as the wavelength of wave associated with electron.

The de-Broglie waves associated with an electron moving under a potential difference of 100 V will have wavelength :

The potential energy associated with an electron in the orbit

The waves associated with electrons revolving in various Bohr orbits in an atom are -

If an electron and proton when in motion have the same wavelength associated with each of them, which would be moving faster and why ?