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Sunday, June 27, 2021

General Inorganic Chemistry (Interactive mechanism of inorganic reactions):

(1)-Classification of Elements & Periodicity in properties

(2) Structure of atom and Electronic configuration

(3)-Chemical bonding & Molecular Structures

3.1 Chemical Bonds

3.2 Ionic Bond

3.3 Covalent bond (sigma and pi Bond)

3.4 Coordinate bond

3.5 Valence Bond Theory

3.5 Hybridization

3.6 VSEPR Theory

3.6 MOT

(4)-General Inorganic Chemistry (G.Ino.C)

3.1 Dipole Moment

3.2 Fajan’s Rule

3.3 Resonance

3.4 D-Orbital resonance

3.5 Bent’s rule of hybridization

3.6 Drago’s rule: No need of hybridization

3.7 Back bond

3.8 Bridge Bond: Multi-centered Bond

3.9 Vander Waal’s force

3.10 Hydrogen Bond

3.11 Metallic Bond

5-Acid-Base Concepts/theories

4.1 Arrhenius Acid–Base concept

4.2 Bronsted Lowery Acid-base concept:

4.3 Lewis Acid-Base concepts:

4.4 The Solvent System (Self or Auto Ionization of Solvent):

4.5 The Lux-Flood Acids-base concepts:

4.6 The Usanovich Acid-base concepts:

6-Oxides (Acid anhydrides)

5.1 Classification of oxides: (On the Basis of oxygen content):

5.2 Classification of oxides: (On the basis of Acid-Base Interaction):

7-Oxy acids and its Salts

6.1 Oxy acids of Boron:

6.2 Oxy acids of Silicon:

6.3 Oxy acids of Nitrogen:

6.4 Oxy acids of Phosphorous:

6.5 Oxy acids of Sulphur:

6.6 Oxy acids of Chlorine:

(8)-Type of inorganic reactions

(9)-Hydrolysis Mechanism

8.1 Hydrolysis of Halides of 13^th group:

8.2 Hydrolysis of Halides of 14^th group:

8.3 Hydrolysis of Halides of 15^th group:

8.4 Hydrolysis of Halides of 16^th group:

8.5 Hydrolysis of Interhalogen compounds:

8.6 Hydrolysis of Halides of 18^th group:

8.7 Hydrolysis of peroxy acids:

8.8 Hydrolysis of Oxides:

8.9 Hydrolysis of Carbides:

8.10 Hydrolysis of Nitrides:

8.11 Hydrolysis of Hydrides:

8.12 Hydrolysis of phosphides:

8.13 Hydrolysis of sulphides:

8.14 Hydrolysis of Silicides:

8.15 Hydrolysis of Borides:

8.16 Hydrolysis of Phosphides:

(10)-Effect of heat on compounds (acids, bases and Salts)

9.1 Thermal stability of salts

9.2 Thermal Decomposition Reactions

(11)- The Coordination compounds

(12)- Quantitive Analysis (Salts Analysis):

Fluorine form only one oxoacid while other halogens form several oxoacids why?

Fluorine can not expand it's octed so form one oxy acid HOF. The other halogens form several oxocids. Most of then can not be isolated in pure state. They are stable only in aqueous solution or in the form of their salts.

Related Questions:

What is Use of Boric Acid?

What is use of Orthoboric acids?

What is basicity of "Boric acid" ?

Why Boric acid exist in solid state ?

What is structure of solid Ortho Boric acid ?

What is effect of heat on Borax?

What is the structure of trimetaboric acid and trimetaborate ion?

What is the Sodium per borate ,give the structure and its uses?

Why aqueous solution of borax reacts with two moles of acids ?

What is the molecular formula of Borax ?

Why Boric acid become strong acid in the presence of cis 1,2-diol or 1,3-diol ?

Why Borazine is more reactive than benzene towards Electrophic Aromatic substitution reactions ?

Why Borazine (B3N3H6) is also known as inorganic benzene ?.

Saturday, June 26, 2021

Metals that form insoluble hydroxides under aqueous conditions, form insoluble amides in liquid ammonia (NH3), for example Zn(NH3)2.

Metals that form insoluble hydroxides under aqueous conditions, form insoluble amides in liquid ammonia (NH₃), for example Zn(NH₃)₂. Just as Zn(OH)₂ dissolve in the presence of excess hydroxide ions (equation-1) , Zn(NH₂)₂ reacts with amide ions to form soluble salts containing anions (A)(equation-2).