1. I > II > III
2. II > I > III
3. III > II > I
4. I > III > II
I > II > III
1. 2, 2
2. 3, 1
3. 1, 3
4. 4, 0
4, 0
1. Sb2O3
2. Bi2O3
3. SeO2
4. Al2O3
Bi2O3
1. Hydrolysis of CH3SiCl3 followed by condensation polymerisation
2. Hydrolysis of (CH3)4 Si by addition polymerisation
3. Hydrolysis of (CH3)2 SiCl2 followed by condensation polymerisation
4. Hydrolysis of (CH3)3 SiCl followed by condensation polymerisation
Hydrolysis of (CH3)2 SiCl2 followed by condensation polymerisation
1. Hydrolysis of CH3SiCl3 followed by condensation polymerisation
2. Hydrolysis of (CH3)4 Si by addition polymerisation
3. Hydrolysis of (CH3)2 SiCl2 followed by condensation polymerisation
4. Hydrolysis of (CH3)3 SiCl followed by condensation polymerisation
Hydrolysis of (CH3)2 SiCl2 followed by condensation polymerisation
1. O2+He
2. O2+Xe
3. O2+Ar
4. O2+N2
O2+He
1. CO2
2. SiO2
3. SO2
4. ClO2
ClO2
1. Conc. H2SO4
2. P2O5
3. CaO
4. CaCl2
CaO
1. H3PO2
2. H3PO3
3. H3PO4
4. H4P2O7
H3PO3
1. The electron affinity values are in the order F>Cl>Br>I
2. HF is the strongest hydrohalic acid
3. All halogens show variable oxidation states
4. Van der Waals forces are weakest in iodine
HF is the strongest hydrohalic acid