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 nth orbit is proportional to : (n = principal quantum number)

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)

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

Magnetic field at the center (at nucleus) of the hydrogen like atom ("atomic number" = z) due to the motion of electron in nth orbit is proporional to

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

The angular momentum of an electron in a hydrogen atom is proportional to (where n is principle quantum number )

Magnetic moment due to the motion of the electron in n^(th) energy state of hydrogen atom is proportional to :

Speed (V_(n)) of electron in nth orbit versus principal quantum number (n) graphs is

According to Bohr's theory the possible value of angular momentum of an electron orbiting in hydrogen atom is

The force acting on the electron in a hydrogen atom depends on the principal quantum number as

According to Bohr's theory of hydrogen atom , for the electron in the nth premissible orbit