According to the classical model of the Hydrogen atom, an electron moves in a circular orbit of radius r = 2a in the xy-plane with constant velocity in the counter-clockwise direction around the proton. Find the current produced due to the motion of the el ectron during its motion and the magnetic dipole moment in terms of unit vectors. ev eva a) I = 2πα b) I = ủ = eva(-k) 4πα. Зеvа = - ev c) I = 6πα. 2 d) I = ; i = 2eva(-k) 8πα. 5eva e) I = 10πα ev °(-k) 2
According to the classical model of the Hydrogen atom, an electron moves in a circular orbit of radius r = 2a in the xy-plane with constant velocity in the counter-clockwise direction around the proton. Find the current produced due to the motion of the el ectron during its motion and the magnetic dipole moment in terms of unit vectors. ev eva a) I = 2πα b) I = ủ = eva(-k) 4πα. Зеvа = - ev c) I = 6πα. 2 d) I = ; i = 2eva(-k) 8πα. 5eva e) I = 10πα ev °(-k) 2
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Transcribed Image Text:According to the classical model of the Hydrogen atom, an electron moves in a
circular orbit of radius r = 2a in the xy-plane with constant velocity in the
counter-clockwise direction around the proton. Find the current produced due to
the motion of the el ectron during its motion and the magnetic dipole moment in
terms of unit vectors.
ev
eva
a) I =
2πα
b) I = ủ = eva(-k)
4πα.
Зеvа
= -
ev
c) I =
6πα.
2
d) I = ; i = 2eva(-k)
8πα.
5eva
e) I =
10πα
ev
°(-k)
2
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