Stability of the species Li2, Li2− and Li2+ increases in the order of View Solution Q 2

Stability depends upon the bond order. B.O. of Li2, Li+ 2 and Li− 2 are 1,0.5 and 0.5 respectively . Hence stability of Li2> Li+ 2 Li2> Li− 2 While stability of Li+ 2> Li− 2 due to higher …

Bond order normally gives an idea of the stability of a molecular species. All the molecules viz. H 2, Li 2 and B 2 have the same bond order yet they are not equally stable. Their stability order is:

Li has 3 electrons. Li2+ has one electron. It is a hydrogen-like atom. In the first excited state, the electron is in 2s orbital.

The radius of a hydrogen atom in the ground state is 0.53 ˚A. What will be the radius of Li2+ in the ground state?

Assertion :Bond order is defined as one half the difference between number of bonding and antibonding orbitals. Reason: Bond order of Li2 is one which means molecule is highly unstable.

If the velocity of electron in third orbit of H e+ ion is ′x′, calculate velocity of electron in second orbit of Li2+ ion.

The atomic spectrum of Li2+ ion arises due to the transition of an electron from n2 to n1. If n1 +n2 =4 and (n2 −n1) =2, find the wavelength of 3rd line of this series in Li2+ ion.

The radius of first Bohr orbit of hydrogen atom is 0.529 ˚A. Calculate the radii of (i) the third orbit of H e+ ion and (ii) the second orbit of Li2+ ion.

The total energy of an electron in the ground state of hydrogen atom is −13.6 eV. The potential energy of an electron in the ground state of Li2+ ion will be