The number of spectral lines that can be possible when electrons in `7^(th)` shell in different hydrogen atoms return to the `2^(nd)` shell

The number of possible spectral lines emitted when electron in n=4 Bohr orbit reaches to n=1 Bohr orbit is.

The kinetic and potential energy (in eV) of an electron present in 2^(nd) Bohr's orbit of hydrogen atom are respectively?

There are subshells in shell around the nucleus? a. What is the number of electrons that can be accmodated in d shell? b. Write the possible subshells in 3rd shell in the increasing order of energy.

What is the maximum number of electrons that can be accommodated in the M Shell?

The mass number of an atom is 32. There are 6 elec¬trons in the 'M' shell. Write the electron configuration of this element.

Atomic number of an atom Z=17, Mass number 35. Write the electronic configuration of different shells.

Atomic number of an atom Z=17, A=35. a) Find the number of protons, electrons and neutrons in the atom. b) Write the electronic cónfiguration of different shells. c) Draw the Bohr model of atom.

What is the maximum number of emission lines when the excited electron of a hydrogen atom in n = 6 drops to the ground state?