(a) Eka-silicon for germanium (Ge) and eka-aluminium for gallium(Ga).
(b) Group number of Ga is 13 and its period is 4th and group number of Ge is 14 and its period is also 4th.

(c) Both Ga and Ge are metalloids.
(d) Ga lies in group 13, therefore, it has 13 - 10 = 3 valence electrons. Similarly, Ge lies in group 14 and hence it has 14 - 10 = 4 valence electrons.

The names and symbols of elements having atomic numbers 3 - 9 are :

a) Lithium (Li)
b) Fluorine (F)
c) Fluorine (F)
d) Boron (B)
e) Carbon (C)

(a) The element A which is a yellow solid at room temperature and shows catenation and allotropy is sulphur (S).
(b) The atomic number of sulphur is 16. Therefore, its electronic configuration is 2, 8, 6.
(c) \(\underset { Ferroussulphate }{ { 2FeSO }_{ 4 } } \underrightarrow { Heat } \underset { Ferricoxide }{ { Fe }_{ 2 }{ O }_{ 3 } } +\underset { Sulphurdioxide }{ { SO }_{ 2 } } +\underset { Sulphurtrioxide }{ { SO }_{ 3 } } \)
    Both SO₂ and SO₃ are major air pollutions.
(d) Since sulphur is a non-metal, therefore both S02 and S03 are acidic oxide since they dissolve in water to form the corresponding acids.
        \(\underset { Sulphurdioxide }{ { SO }_{ 2 } } +\underset { Water }{ { H }_{ 2 }O } \rightarrow \underset { Sulphurousacid }{ { H }_{ 2 }{ SO }_{ 3 } } \\ \underset { Ferroustrioxide }{ { SO }_{ 3 } } +\underset { Water }{ { H }_{ 2 }O } \rightarrow \underset { Sulphuricacid }{ { H }_{ 2 }{ SO }_{ 4 } } \)
(e) Since sulphur contains six valence electrons, therefore it lies in group 6 + 10 = 16.Further, since atomic number of sulphur (S) is 16. It lies in the 3rd period.

(a) Since the element X of group 15 exists as a diatomic molecule, combines with hydrogen at 773 K in presence of a catalyst to form ammonia which has a characteristic smell, therefore the element X is nitrogen (N).
   \(\underset { \quad Nitrogen\\ (diatomicmolecule) }{ { N }_{ 2 } } +\underset { Hydrogen }{ { 3H }_{ 2 } } \underrightarrow { 773k/Catalyst } \underset { Ammonia\\ (pungentsmell) }{ { 2NH }_{ 3 } } \)
The atomic number of element X is 7, so its electronic configuration i 2,5. Thus it has five valence electrons.
(b) Nitrogen has 5 valence electrons. Therefore, it needs 3 more electrons to complete its octet. To do so, it shares three of its electrons with three electrons of the other nitrogen atom to form a diatomic molecule of N₂ gas. Thus, three covalent bonds are formed between two nitrogen atoms and each nitrogen atom is left with one
lone pair of electrons.

(c) Nitrogen atom has 5 valence electrons. Therefore it needs 3 more electrons to complete its octet. To do so, it shares three of its electrons with one electron each of three hydrogen atoms to form a molecule of ammonia .

In NH₃ molecule, there are three N - H single covalent bond and one lone pair of electrons on the nitrogen atom.