The total number of atomic orbitals in fourth energy level of an atom is.

The total number of subshells in fouth energy level of an atom is

Total number of orbital in the 5th energy level is

The total number of orbitals in fifth energy level should theoretically be

The total number of subshells in nth main energy level are

The total number of orbitals in energy level represented by n = 5 are

An electron is excited to fourth energy level in an atom. It will

According to MOT, two atomic orbitals overlap relsulting in the formation of molecular orbital. Number of atomic orbitals overlapping together is equal to the molecular orbital formed. The two atomic orbital formed by LCAO (linear combination of atomic orbital) in the same phase or in the different phase are known as bonding and antibonding molecular orbitals respectively. theenergy of bonding molecular orbital is less than that of the pure atomic orbital by an amount Delta . this is known as the stabilization energy. the energy of antibonding molecular orbital is increased by 'Delta' (destabilisation energy) The bond order of N_(2)^(-) is equal to that of

Total energy of electron orbiting around the nucleus of an atom is always negative. What is the significance of this ?

1.8 g hydrogen atoms are excited to radiation .The study of spectra indicate that 27% of the atom are in third energy level and 15 % of atom in second energy level and the rest in ground state. IP of H is 13.6 eV . Calculate a. Number of atom present in first and third energy levels b. Total energy envolved when all the atom return to the ground state

According to MOT, two atomic orbitals overlap resulting in the formation of molecular orbital formed. Number of atomic orbitals overlapping together is equal to the molecule orbital formed. The two atomic orbital thus formed by LCAO (linear combination of atomic orbital) in the phase or in the different phase are known as bonding and antibonding molecular orbitals respectively. The energy of bonding molecular orbital is lower than that of the pure atomic orbitals by an amount Delta . This known as the stabilization energy. The enerby of antibonding molecular orbital in increased by Delta' (destabilisation energy). Q . The bond order of N_(2)^(-) is equal to that of