Orbital electrons do not spiral into the nucleus because of

In Bohr's atomic model, the electrons do not fall into the nucleus because

Electrons revolving around the nucleus do not fall into the nucleus because of centrifugal force. Revolving electrons are planetary electrons.

The electrons cannot exist inside the nucleus because

The Bohr moden does not apply when more than one electron orbit the nucleues because it does not account for the electrostatic force that the electron exert on one another.For instance , an electrically neutral lithium atom (Li) contains three electrons in orbit around a nucleus that includes three protons (Z = 3) , and Bohr's model can be used for the doubly charged positive ion of lithium (Li^(2)^(+)) that results when two electrons are removed from the neutral atom, leaving only one electron to orbit the nucleus . Obtain the ionization energy that is needed to remove the remaining electron from (Li^(2)^(+))

The orbital nearest to the nucleus is

Assertion: Bohr had to postulate that the electrons in stationary orbits around the nucleus do not radiate. Reason: According to classical physical all moving electrons radiate.

An electron of charge e moves in a circular orbit of radius r round a nucleus the magnetic field due to orbit motion off the electron at the site of the nucleus is B . The angular velocity omega of the electron is