Magnetic moment of an electron in `n^("th")` Bohr orbit is proportional to

Magnetic moment of an electron in nth orbit of hydrogen atom is

The magnetic moment of electron due to orbital motion is proportional to (n= principle quantum numbers)

the centripetal acceleration of an electron in a Bohr's orbit is inversely proportional to

According to Bohr's theory, the time averaged magnetic field at the centre (i.e. nucleus) of a hydrogen atom due to the motion of electrons in the n^(th) orbit is proportional to : (n = principal quantum number)

" To which of the following the angular velocity of the electron in the "n" -th Bohr orbit is proportional ?? "

Assertion: The de Broglie wavelength of an electron in n^(th) Bohr orbit of hydrogen is inversely proportional to the square of quantum number n. Reason: The magnitude of angular momentum of an electron in n^(th) Bohr orbit of hydrogen atom is directly proportional to n.

According to Bohr model, magnetic field at the centre (at the nucleus) of a hydrogen atom due to the motion of the electron in nth orbit is proportional to 1//n^(x) , find the value of x

The linear speed of an electron in Bohr's orbit is inversely proportional to

The linear speed of an electron in Bohr's orbit is inversely proportional to