One requires energy `E_n` to remove a nucleon from a nucleus and an energy `E_e` to remove an electron from the orbit of an atom. Then

One requires energy E_n to remove a nucleon from a nucleus and an energy E_e to remove an electrons from the orbit of an atom. Then

What is the energy required to remove an electron from second orbit of hydrogen atom ?

What is the energy required to remove an electron from second orbit of hydrogen atom ?

The energy that is needed to remove an electron from the 1st Bohr orbit or Hydrogen atom is

The ratio of the energy required to remove an electron from the first three Bohr's orbit of Hydrogen atom is

The energy required to remove the electron from a singly ionized Helium atom is 2.2 times the energy required to remove an electron from Helium atom. The total energy required to ionize the Helium atom completely is:

The energy required to remove the electron from a singly ionized Helium atom is 2.2 times the energy required to remove an electron from Helium atom. The total energy required to ionize the Helium atom ompletelyis:

The ionisation energy of electron (E) is second orbit of hydrogen atom is

An energy of 24.6 eV is required to remove one of that electrons from a neutal helium atom. The enegy (in eV )required to remove both the electrons from a netural helium atom is

Assertion Energy E_(1) is required to remove first electron from helium atom and energy E_(2) is to required to remove the second electron . Them E_(1)ltE_(2). Reason Ionisation energy of single electron of He^(+) is 54.4 eV.