An electron of hydrogen atoms is considered to be revolving round the proton in the circuit orbit of radius `(h^(2))/(2pi^(2)me^(2)) `with velocity` (2pie^(2))/(h)` the equivalent current due to circuiting charge is

The electron of hydrogen atom is considered to be revolving around the proton in circular orbit of radius (h^(2))/(me^(2)) with velocity (e^(2))/(h) , where h=(h)/(2pi) . The curret I is

An electron in a hydrogen atom is considered to be revolving around a proton with a velocity (e^2)/(n) in a circular orbit of radius (n^2)/(me^2) . If I is the equivalent current, express it in terms of m, e, n.

The electron of a hydrogen atom revolves the proton in a circuit nth of radius r_(0) = (in_(0) n^(2)h^(2))/(pi m e^(2)) with a speed upsilon_(0) =(e^(2))/(2 in_(0) nh) The current the to circulating charge is proportional to

The electron of a hydrogen atom revolves the proton in a circuit nth of radius r_(0) = (in_(0) n^(2)h^(2))/(pi m e^(2)) with a speed upsilon_(0) =(e^(2))/(2 in_(0) nh) The current the to circulating charge is proportional to

An electron of hydrogen atom is revolving around proton with radius h^2//4pi^2me^2 with speed 2 pi e^2//h . The equivalent current is

In a hydrogen atom, electron moves in an orbit of radius 5xx10^(-11)m with a speed of 2.2xx10^(6)(m)/(s). Calculate the equivalent current.

If an electron is revolving in a circular orbit of radius 0.5A^(@) with a velocity of 2.2xx10^(6)m//s . The magnetic dipole moment of the revolving electron is

An electron in the hydrogen atom circles around the proton with a speed of 2.18xx10^(6) m/s in an orbit of radius 0.53Å . The equivalent current is

In a hydrogen atom, electron moves in an orbit of radius 5xx10^(-11)m with a speed of 2.2xx10^(6)(m)/(s) . Calculate the equivalent current.