Radon has low ionisation potential and empty d-orbitals in the valence shell. Still it does not form compounds with other elements. Why?

Passage-IV : Sulphur and rest of the elements of group 16 are less electronegative than oxygen. Therefore, their atoms cannot take up electrons easily. They can acquire ns^(2)np^(6) configuration by sharing two electrons with the atoms of other elements and thus, exhibit +2 oxidation state in their compounds. In addition to this, their atoms have vacant d-orbitals in their valence shell to which electrons can be promoted from the p and s-orbitals of the shell. As a result, they can show +4 and +6 oxidation states shell. Like sulphur, oxygen does not show +4 and +6 oxidation states. The reason is :

Passage-IV : Sulphur and rest of the elements of group 16 are less electronegative than oxygen. Therefore, their atoms cannot take up electrons easily. They can acquire ns^(2)np^(6) configuration by sharing two electrons with the atoms of other elements and thus, exhibit +2 oxidation state in their compounds. In addition to this, their atoms have vacant d-orbitals in their valence shell to which electrons can be promoted from the p and s-orbitals of the shell. As a result, they can show +4 and +6 oxidation states shell. The nature of the compounds of sulphur having +4 oxidation state is :

The Chemical bond fonned due to electron transfer is called ionic bond or electro valent bond Ionic bond will be formed more easily between the elements with low ionisation potential and high electron affinity. Energy changes involved during the fonnation of ionic compound can be calculated by Born - Haber cycle. Lattice enthalpy changes are directly proportional to the stability of ionic compound. Which or the following has electrovalent bond ?

The chemical bond fonned due to electron trdllsfer is called ionic bond or electro valcnt bond, Ionic bond will be formed more easily between the elements with low ionization potential and high electron affinity. Energy changes involved during the fonnatioo of ionic compound can be calculated by Born-Haber cycle. Lattic enthalpy changes are directly proportional to the stability of ionic compound Most stable ionic compound among the following is

The chemical bond fonned due to electron trdllsfer is called ionic bond or electro valcnt bond, Ionic bond will be formed more easily between the elements with low ionization potential and high electron affinity. Energy changes involved during the fonnatioo of ionic compound can be calculated by Born-Haber cycle. Lattic enthalpy changes are directly proportional to the stability of ionic compound Boron-Haber cycle is based on

(A): C Cl_(2) does not undergo hydrolysis where as SiCl_(4) is readily hydrolysed. (R) : Carbon has no d-orbitals in its valence shell, but silicon has vacant d-orbitals in its valence shell.

(A): Nitrogen can form pentahalides (R): Nitrogen does not possess vacant d-orbitals in the valance shell

An atom of an element 'A' has three electrons in its outermost shell and that of 'B' has six electrons in the outrer most shell. The formula of the compound formed between these two elements is