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Wiley's J.D. Lee Concise Inorganic Chemistry for JEE (Main & Advanced) 2025 | Author By Sudarsan Guha | 5th Edition | Wiley Publication ( English Medium )

759-1019
[Shipping Cost = Standard Mode, Expedite Mode]

Wiley's J.D. Lee Concise Inorganic Chemistry for JEE (Main & Advanced) 2025 | Author By Sudarsan Guha | 5th Edition | Wiley Publication ( English Medium ).

The book is an adaptation of the classic book Concise Inorganic Chemistry by J.D. Lee (Fifth Edition), which is widely used by students preparing for JEE. This adapted version provides a more concise and relevant treatment of Inorganic Chemistry as per JEE syllabus requirements. The concepts are explained in a simple and straightforward manner. Yet the book provides a thorough grounding of the subject, helping students approach the examination with confidence.


About The Author:- 

John Lee was a Senior Lecturer in the Department of Chemistry at Loughborough University, Leicestershire.


Table Of Contents:- 

Preface


Note to the Student


1. Structure of an Atom


1.1 Atoms


1.2 Some Important Definitions


1.3 Electronic Configuration of an Atom


Quantum numbers


Aufbau principle


Pauli exclusion principle


Hund’s rule


Stability of half-filled and fully-filled shells


Electronic configuration of ions


Nodal planes of different orbitals


Slater’s rule


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion-Reasoning Type Questions


Integer Answer Type Questions


Matrix-Match Type Questions


Answers


2. Periodic Table and Periodic Properties


2.1 Periodic Table


Genesis of periodic classification


Moseley’s work


Modern periodic law


2.2 Classification of Elements Based on Electronic Configuration


Prediction of period and group number of an element from its electronic configuration


Neil Bohr’s classification


Naming of super heavy elements


2.3 Periodic Trends in Properties


Atomic radius


Ionic radius


Ionization energy


Applications of ionization energy


Electron affinity


Electronegativity


Lattice energy


Hydration energy


Ionic mobility


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


3. Chemical Bonding


3.1 Attainment of a Stable Configuration


3.2 Types of Bonds


3.3 Transitions Between the Main Types of Bonding


Ionic bonds


Covalent bonds


Oxidation numbers


Coordinate bonds


Double and triple bonds


Metallic bonds and metallic structures


3.4 The Covalent Bond


The Lewis theory


Sidgwick–Powell theory


3.5 Valence Bond Theory


What is the essence of hybridization?


Features of hybrid orbitals


Calculation of steric number


3.6 Valence Shell Electron Pair Repulsion (VSEPR) Theory


Effect of lone pair


Effect of double bond


Effect of electronegativity


Back bonding


3.7 The Extent of d Orbital Participation in Molecular Bonding


3.8 Types of Covalent Bonds (Sigma (s ) and Pi (p ) Bonds)


Bridge bonding


3.9 Molecular Orbital Method


3.10 LCAO Method


s–s combinations of orbitals


s–p combinations of orbitals


p–p combinations of orbitals


p–d combinations of orbitals


d–d combinations of orbitals


Non-bonding combinations of orbitals


3.11 Rules for Linear Combination of Atomic Orbitals


3.12 Examples of Molecular Orbital Treatment for Homonuclear Diatomic Molecules


H2+ molecule ion


H2 molecule


He2+ molecule ion


He2 molecule


Li2 molecule


Be2 molecule


B2 molecule


C2 molecule


N2 molecule


O2 molecule


O-2 ion


F2 molecule


3.13 Examples of Molecular Orbital Treatment for Heteronuclear


Diatomic Molecules


NO molecule


CO molecule


3.14 Dipole Moment


Application of dipole moment


Some special cases


3.15 The Ionic Bond


Radius ratio rules


Calculation of some limiting radius ratio values


3.16 Close Packing


3.17 Ionic Compounds of the Type AX (ZnS, NaCl, CsCl)


Structures of zinc sulphide


Sodium chloride structure


Caesium chloride structure


3.18 Ionic Compounds of the Type AX2 (CaF2, TiO2, SiO2)


Calcium fluoride (fluorite) structure


Rutile structure


b-cristobalite (silica) structure


3.19 Layer Structures (CdI2, CdCl2, [NiAs])


Cadmium iodide structure


Cadmium chloride structure


Nickel arsenide structure


3.20 Lattice Energy


3.21 Stoichiometric Defects


Schottky defects


Frenkel defects


3.22 Nonstoichiometric Defects


Metal excess


Metal deficiency


3.23 Born–Haber Cycle


3.24 Polarizing Power and Polarizability – Fajans’ Rules


Properties of ionic compounds affected by polarization


3.25 Melting Point of Ionic Compounds


3.26 Solubility of Ionic Compounds


Prediction of solubility order in ionic compounds


3.27 Electrical Conductivity and Colour


3.28 Acidic Nature of Oxides


3.29 Thermal Stability of Ionic Compounds


3.30 Weak Forces


Attractive intermolecular forces


Repulsive intermolecular forces


Lennard–Jones potential


3.31 Interactions between Ions and Covalent Molecules


3.32 The Metallic Bond


Conductivity


Lustre


Malleability and cohesive force


Crystal structures of metals


Bond lengths


3.33 Theories of Bonding in Metals


Free electron theory


Valence bond theory


Molecular orbital or band theory


3.34 Conductors, Insulators and Semiconductors


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


4. Hydrolysis


4.1 Introduction


4.2 Hydrolysis Through SN1 Mechanism


4.3 Hydrolysis Through SN2 Mechanism


4.4 Hydrolysis Through Addition–Elimination Mechanism


4.5 Hydrolysis Through Addition Mechanism


4.6 Hydrolysis Through Redox Reaction


4.7 Hydrolysis Through Push–Pull Mechanism


4.8 Hydrolysis Through Mixed Mechanism


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


5. Coordination Compounds


5.1 Double Salts and Coordination Compounds


5.2 Werner’s Work


5.3 More Recent Methods of Studying Complexes


5.4 Classification of Ligands


5.5 Effective Atomic Number (EAN)


Sidgwick EAN rule


5.6 Shapes of d Orbitals


5.7 Bonding in Transition Metal Complexes


Valence bond theory


Crystal field theory


Molecular orbital theory


5.8 Valence Bond Theory


5.9 Crystal Field Theory


Octahedral complexes


5.10 Effects of Crystal Field Splitting


5.11 Tetragonal Distortion of Octahedral Complexes (Jahn-Teller Distortion)


5.12 Square Planar Arrangements


5.13 Tetrahedral Complexes


5.14 Magnetism


5.15 Extension of the Crystal Field Theory to Allow for Some Covalency


5.16 Nomenclature of Coordination Compounds


5.17 Isomerism


Polymerization isomerism


Ionization isomerism


Hydrate isomerism


Linkage isomerism


Coordination isomerism


Coordination position isomerism


Geometrical isomerism and optical isomerism


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


vii


6. Metallurgy


6.1 Types of Ores


6.2 Principal Steps in the Recovery of a Metal from its Ore


6.3 Concentration or Dressing of Ore


Gravity separation or levigation


Magnetic separation


Froth floatation or oil floatation


Chemical method of separation: leaching


6.4 Conversion of Concentrated Ore into its Oxide


Calcination


Roasting


6.5 Different Reduction Processes


Carbon reduction


Self reduction


Thermite reduction (or Goldschmidt-Thermite process)


Metal replacement method (Hydrometallurgy)


Electrolytic reduction


Thermal decomposition method


6.6 Purification or Refining of Metal


Thermal refining


Electrorefining


6.7 Thermodynamics of Reduction Process


6.8 Alloys and Amalgams


Classification of alloys


Characteristics of alloys


Preparation of alloys


Amalgam


6.9 Different Types of Furnaces Used in Metallurgy


6.10 Extraction of Silver


Refining of Ag


6.11 Extraction of Gold by Cyanide Process


Refining of Au


6.12 Extraction of Tin


Refining of Sn


6.13 Extraction of Magnesium


Electrolytic reduction


Carbon reduction process


Other processes


6.14 Extraction of Aluminium


Beneficiation of bauxite


Electrolytic reduction of pure Al


Electrorefining of aluminium


6.15 Extraction of Lead


Carbon reduction


Self reduction process


Refining of lead


6.16 Extraction of Copper


Refining of blister copper


6.17 Extraction of Zinc


6.18 Extraction of Iron


Purification of iron or preparation of wrought iron


Steel making


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


7. Qualitative Salt Analysis


Tests for Acid Radicals


7.1 Action of Dilute Acids


7.2 Tests for CO2


3


-/HCO-


3 and SO2


3


-/HSO-


3 Radicals


Distinction between carbonate and bicarbonate


Detection of carbonate and bicarbonate when both are present together


Distinction between sulphite and bisulphite


Some other tests for SO2


3


- ions


7.3 Tests for Sulphide (S2-) Radical


7.4 Tests for Thiosulphate (S2O3


2-) Radical


7.5 Tests for Nitrite (NO2


-) Radical


7.6 Tests for Acetate, Formate and Oxalate Radicals


Specific test for acetate (cacodyl oxide test)


Specific test for formate (mercury (II) formate test)


Specific tests for oxalate


7.7 Tests for Halide (Cl-, Br-, I-) Radicals


Specific test for Cl - (chromyl chloride test)


Specific test for Br- and I - (layer test)


Other test for Br−


Other tests for I −


7.8 Tests for Nitrate (NO3


-) Radical


7.9 Tests for Sulphate (SO2


4


-) Radical


7.10 Tests for Borate (BO3


3


-) Radical 286


7.11 Tests for Phosphate (PO3


4


-) Radical 287


7.12 Tests for Chromate (CrO2


4


-) and Dichromate (Cr2O2


7


-) Radicals


7.13 Tests for Permanganate (MnO-


4) and Manganate (MnO2


4


-) Radicals


Tests for Basic Radicals


7.14 Dry Tests for Basic Radicals


Heating effects on the dry sample


Flame test


Borax bead test


Sodium carbonate bead test


7.15 Wet Tests for Basic Radicals


Classification of cations (group analysis)


7.16 Some General Tests for Cations


Tests for group V cations


Tests for group VI and zero group cations


7.17 Specific Tests for Some Cations


Heating Effects


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


8. Hydrogen and the Hydrides


8.1 Electronic Structure


8.2 Position in the Periodic Table


8.3 Abundance of Hydrogen


8.4 Preparation of Hydrogen


8.5 Properties of Molecular Hydrogen


Physical properties


Chemical properties


Use of hydrogen as fuel


8.6 Isotopes of Hydrogen


8.7 Ortho and Para Hydrogen


8.8 Hydrides


Ionic or salt-like hydrides


Covalent hydrides


Metallic (or interstitial) hydrides


Intermediate hydrides


8.9 The Hydrogen Ion


8.10 Hydrogen Bonding


Intermolecular hydrogen bonding


Intramolecular hydrogen bonding


Strength of hydrogen bonding


Extent of hydrogen bonding


Special cases of hydrogen bonding


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


9. The s-Block Elements and their Compounds  Group 1 – The Alkali Metals


9.1 General Properties


Electronic structure


Size of atoms and ions


Density


Ionization energy


Electronegativity and bond type


9.2 Structures of the Metals, Hardness and Cohesive Energy


Melting and boiling points


9.3 Flame Colours and Spectra


9.4 Colour of Compounds


9.5 Chemical Properties


Reaction with water


Reaction with air


Reaction with dinitrogen


9.6 Oxides, Hydroxides, Peroxides and Superoxides


Reaction with air


Normal oxides – monoxides


Hydroxides


Peroxides and superoxides


9.7 Sulphides


9.8 Oxosalts – Carbonates, Bicarbonates, Nitrates, Nitrites and Sulphates


9.9 Halides and Polyhalides


9.10 Hydrides


9.11 Solubility and Hydration


9.12 Solutions of Metals in Liquid Ammonia


9.13 Compounds with Carbon


9.14 Complexes, Crowns and Crypts


9.15 Biological Importance


9.16 Differences between Lithium and the Other Group 1 Elements


9.17 Preparation of Sodium Hydroxide


9.18 Electrolytic Processes


Diaphragm cell


Mercury cathode cell


9.19 Preparation of Sodium Carbonate


9.20 The Solvay (or Ammonia – Soda) Process


Group 2 – The Alkaline Earth Elements


9.21 General Properties


Electronic structure


Size of atoms and ions


Ionization energy


Electronegativity


Hydration energies


Solubility and lattice energy


Solutions of the metals in liquid ammonia


9.22 Anomalous Behaviour of Beryllium


9.23 Chemical Properties


Reaction with water


9.24 Hydroxides


9.25 Hardness of Water


9.26 Reaction with Acids and Bases


9.27 Oxides and Peroxides


9.28 Sulphates


9.29 Nitrates


9.30 Hydrides


9.31 Halides


9.32 Nitrides


9.33 Carbides


9.34 Complexes


9.35 Biological Role of Mg2+ and Ca2+


9.36 Differences between Beryllium and the Other Group 2 Elements


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


10. The p-Block Elements and their Compounds


Part 1: The Group 13 Elements


10.1 Oxidation States and Types of Bonds


The (+III) oxidation state


The (+I) oxidation state – the ‘inert pair effect’


10.2 General Properties


Melting points, boiling points and structures i


Size of atoms and ions


Electropositive character


Ionization energy


10.3 Preparation of Boron


10.4 Reactions of Boron


10.5 Reactions of the Other Elements


Reaction with water and air


Reaction with acids and alkalis


Reaction with dioxygen


Reaction with the halogens and sulphate


Alums


Cement


10.6 Compounds of Boron and Oxygen


Boron sesquioxide and the borates


Acidic properties of H3BO3 or B(OH)3


Structures of borates


Borax


Sodium peroxoborate


Qualitative analysis of boron compounds


Fluoboric acid


10.7 The Other Group 13 Oxides


Preparation of Al2O3


Amphoteric behaviour – aluminates


10.8 Tetrahydridoborates (Borohydrides)


10.9 Halides


Trihalides


Dihalides


10.10 Complexes


10.11 Differences Between Boron and the Other Elements (Anomalous Behaviour of Boron)


10.12 Boron Hydrides


Compounds known


Preparation


10.13 Reactions of the Boranes


Hydroboration


Reaction with ammonia


Some other reactions of boranes


10.14 Structures of the Boranes


10.15 Organometallic Compounds


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


Part 2: The Group 14 Elements


10.16 Structure and Allotropy of the Elements


10.17 Differences Between Carbon, Silicon and the Remaining


Elements


10.18 Physical Properties


Covalent radii


Ionization energy


Melting points


Metallic and non-metallic character


Four-covalent compounds


10.19 Chemical Reactivity


Inert pair effect


10.20 Carbides


Salt-like carbides


Interstitial carbides


Covalent carbides


10.21 Oxygen Compounds of Carbon


Carbon monoxide CO


Carbon dioxide CO2


Carbon suboxides


10.22 Carbonates


10.23 Sulphides of Carbon


10.24 Oxides of Silicon


10.25 Oxides of Tin and Lead


Oxides of Tin


Oxides of Lead


10.26 Silicates


Occurrence in the Earth’s crust


Soluble silicates


10.27 Classification of Silicates


Orthosilicates (neso-silicates)


Pyrosilicates (soro-silicates, disilicates)


Cyclic silicates


Chain silicates


Sheet silicates (phyllo-silicates)


Three-dimensional silicates


10.28 Glass


10.29 Organosilicon Compounds and the Silicones


Organosilicon compounds


Preparation of organosilicon compounds


Silicones


10.30 Hydrides of Silicon


10.31 Complexes


10.32 Internal p Bonding Using d Orbitals


10.33 Halides


Tetrahalides


Catenated halides


Dihalides


10.34 Organic Derivatives


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions.


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Product Details
SKU, Publisher Wiley-Con Inorg Chem-Guha(E)
Publisher Wiley Publication
Author, Edition By Sudarsan Guha, 5th Edition, English Medium
Binding, Type Paperback, New
No. of Pages 696
Product Description

Wiley's J.D. Lee Concise Inorganic Chemistry for JEE (Main & Advanced) 2025 | Author By Sudarsan Guha | 5th Edition | Wiley Publication ( English Medium ).

The book is an adaptation of the classic book Concise Inorganic Chemistry by J.D. Lee (Fifth Edition), which is widely used by students preparing for JEE. This adapted version provides a more concise and relevant treatment of Inorganic Chemistry as per JEE syllabus requirements. The concepts are explained in a simple and straightforward manner. Yet the book provides a thorough grounding of the subject, helping students approach the examination with confidence.


About The Author:- 

John Lee was a Senior Lecturer in the Department of Chemistry at Loughborough University, Leicestershire.


Table Of Contents:- 

Preface


Note to the Student


1. Structure of an Atom


1.1 Atoms


1.2 Some Important Definitions


1.3 Electronic Configuration of an Atom


Quantum numbers


Aufbau principle


Pauli exclusion principle


Hund’s rule


Stability of half-filled and fully-filled shells


Electronic configuration of ions


Nodal planes of different orbitals


Slater’s rule


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion-Reasoning Type Questions


Integer Answer Type Questions


Matrix-Match Type Questions


Answers


2. Periodic Table and Periodic Properties


2.1 Periodic Table


Genesis of periodic classification


Moseley’s work


Modern periodic law


2.2 Classification of Elements Based on Electronic Configuration


Prediction of period and group number of an element from its electronic configuration


Neil Bohr’s classification


Naming of super heavy elements


2.3 Periodic Trends in Properties


Atomic radius


Ionic radius


Ionization energy


Applications of ionization energy


Electron affinity


Electronegativity


Lattice energy


Hydration energy


Ionic mobility


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


3. Chemical Bonding


3.1 Attainment of a Stable Configuration


3.2 Types of Bonds


3.3 Transitions Between the Main Types of Bonding


Ionic bonds


Covalent bonds


Oxidation numbers


Coordinate bonds


Double and triple bonds


Metallic bonds and metallic structures


3.4 The Covalent Bond


The Lewis theory


Sidgwick–Powell theory


3.5 Valence Bond Theory


What is the essence of hybridization?


Features of hybrid orbitals


Calculation of steric number


3.6 Valence Shell Electron Pair Repulsion (VSEPR) Theory


Effect of lone pair


Effect of double bond


Effect of electronegativity


Back bonding


3.7 The Extent of d Orbital Participation in Molecular Bonding


3.8 Types of Covalent Bonds (Sigma (s ) and Pi (p ) Bonds)


Bridge bonding


3.9 Molecular Orbital Method


3.10 LCAO Method


s–s combinations of orbitals


s–p combinations of orbitals


p–p combinations of orbitals


p–d combinations of orbitals


d–d combinations of orbitals


Non-bonding combinations of orbitals


3.11 Rules for Linear Combination of Atomic Orbitals


3.12 Examples of Molecular Orbital Treatment for Homonuclear Diatomic Molecules


H2+ molecule ion


H2 molecule


He2+ molecule ion


He2 molecule


Li2 molecule


Be2 molecule


B2 molecule


C2 molecule


N2 molecule


O2 molecule


O-2 ion


F2 molecule


3.13 Examples of Molecular Orbital Treatment for Heteronuclear


Diatomic Molecules


NO molecule


CO molecule


3.14 Dipole Moment


Application of dipole moment


Some special cases


3.15 The Ionic Bond


Radius ratio rules


Calculation of some limiting radius ratio values


3.16 Close Packing


3.17 Ionic Compounds of the Type AX (ZnS, NaCl, CsCl)


Structures of zinc sulphide


Sodium chloride structure


Caesium chloride structure


3.18 Ionic Compounds of the Type AX2 (CaF2, TiO2, SiO2)


Calcium fluoride (fluorite) structure


Rutile structure


b-cristobalite (silica) structure


3.19 Layer Structures (CdI2, CdCl2, [NiAs])


Cadmium iodide structure


Cadmium chloride structure


Nickel arsenide structure


3.20 Lattice Energy


3.21 Stoichiometric Defects


Schottky defects


Frenkel defects


3.22 Nonstoichiometric Defects


Metal excess


Metal deficiency


3.23 Born–Haber Cycle


3.24 Polarizing Power and Polarizability – Fajans’ Rules


Properties of ionic compounds affected by polarization


3.25 Melting Point of Ionic Compounds


3.26 Solubility of Ionic Compounds


Prediction of solubility order in ionic compounds


3.27 Electrical Conductivity and Colour


3.28 Acidic Nature of Oxides


3.29 Thermal Stability of Ionic Compounds


3.30 Weak Forces


Attractive intermolecular forces


Repulsive intermolecular forces


Lennard–Jones potential


3.31 Interactions between Ions and Covalent Molecules


3.32 The Metallic Bond


Conductivity


Lustre


Malleability and cohesive force


Crystal structures of metals


Bond lengths


3.33 Theories of Bonding in Metals


Free electron theory


Valence bond theory


Molecular orbital or band theory


3.34 Conductors, Insulators and Semiconductors


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


4. Hydrolysis


4.1 Introduction


4.2 Hydrolysis Through SN1 Mechanism


4.3 Hydrolysis Through SN2 Mechanism


4.4 Hydrolysis Through Addition–Elimination Mechanism


4.5 Hydrolysis Through Addition Mechanism


4.6 Hydrolysis Through Redox Reaction


4.7 Hydrolysis Through Push–Pull Mechanism


4.8 Hydrolysis Through Mixed Mechanism


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


5. Coordination Compounds


5.1 Double Salts and Coordination Compounds


5.2 Werner’s Work


5.3 More Recent Methods of Studying Complexes


5.4 Classification of Ligands


5.5 Effective Atomic Number (EAN)


Sidgwick EAN rule


5.6 Shapes of d Orbitals


5.7 Bonding in Transition Metal Complexes


Valence bond theory


Crystal field theory


Molecular orbital theory


5.8 Valence Bond Theory


5.9 Crystal Field Theory


Octahedral complexes


5.10 Effects of Crystal Field Splitting


5.11 Tetragonal Distortion of Octahedral Complexes (Jahn-Teller Distortion)


5.12 Square Planar Arrangements


5.13 Tetrahedral Complexes


5.14 Magnetism


5.15 Extension of the Crystal Field Theory to Allow for Some Covalency


5.16 Nomenclature of Coordination Compounds


5.17 Isomerism


Polymerization isomerism


Ionization isomerism


Hydrate isomerism


Linkage isomerism


Coordination isomerism


Coordination position isomerism


Geometrical isomerism and optical isomerism


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


vii


6. Metallurgy


6.1 Types of Ores


6.2 Principal Steps in the Recovery of a Metal from its Ore


6.3 Concentration or Dressing of Ore


Gravity separation or levigation


Magnetic separation


Froth floatation or oil floatation


Chemical method of separation: leaching


6.4 Conversion of Concentrated Ore into its Oxide


Calcination


Roasting


6.5 Different Reduction Processes


Carbon reduction


Self reduction


Thermite reduction (or Goldschmidt-Thermite process)


Metal replacement method (Hydrometallurgy)


Electrolytic reduction


Thermal decomposition method


6.6 Purification or Refining of Metal


Thermal refining


Electrorefining


6.7 Thermodynamics of Reduction Process


6.8 Alloys and Amalgams


Classification of alloys


Characteristics of alloys


Preparation of alloys


Amalgam


6.9 Different Types of Furnaces Used in Metallurgy


6.10 Extraction of Silver


Refining of Ag


6.11 Extraction of Gold by Cyanide Process


Refining of Au


6.12 Extraction of Tin


Refining of Sn


6.13 Extraction of Magnesium


Electrolytic reduction


Carbon reduction process


Other processes


6.14 Extraction of Aluminium


Beneficiation of bauxite


Electrolytic reduction of pure Al


Electrorefining of aluminium


6.15 Extraction of Lead


Carbon reduction


Self reduction process


Refining of lead


6.16 Extraction of Copper


Refining of blister copper


6.17 Extraction of Zinc


6.18 Extraction of Iron


Purification of iron or preparation of wrought iron


Steel making


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


7. Qualitative Salt Analysis


Tests for Acid Radicals


7.1 Action of Dilute Acids


7.2 Tests for CO2


3


-/HCO-


3 and SO2


3


-/HSO-


3 Radicals


Distinction between carbonate and bicarbonate


Detection of carbonate and bicarbonate when both are present together


Distinction between sulphite and bisulphite


Some other tests for SO2


3


- ions


7.3 Tests for Sulphide (S2-) Radical


7.4 Tests for Thiosulphate (S2O3


2-) Radical


7.5 Tests for Nitrite (NO2


-) Radical


7.6 Tests for Acetate, Formate and Oxalate Radicals


Specific test for acetate (cacodyl oxide test)


Specific test for formate (mercury (II) formate test)


Specific tests for oxalate


7.7 Tests for Halide (Cl-, Br-, I-) Radicals


Specific test for Cl - (chromyl chloride test)


Specific test for Br- and I - (layer test)


Other test for Br−


Other tests for I −


7.8 Tests for Nitrate (NO3


-) Radical


7.9 Tests for Sulphate (SO2


4


-) Radical


7.10 Tests for Borate (BO3


3


-) Radical 286


7.11 Tests for Phosphate (PO3


4


-) Radical 287


7.12 Tests for Chromate (CrO2


4


-) and Dichromate (Cr2O2


7


-) Radicals


7.13 Tests for Permanganate (MnO-


4) and Manganate (MnO2


4


-) Radicals


Tests for Basic Radicals


7.14 Dry Tests for Basic Radicals


Heating effects on the dry sample


Flame test


Borax bead test


Sodium carbonate bead test


7.15 Wet Tests for Basic Radicals


Classification of cations (group analysis)


7.16 Some General Tests for Cations


Tests for group V cations


Tests for group VI and zero group cations


7.17 Specific Tests for Some Cations


Heating Effects


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


8. Hydrogen and the Hydrides


8.1 Electronic Structure


8.2 Position in the Periodic Table


8.3 Abundance of Hydrogen


8.4 Preparation of Hydrogen


8.5 Properties of Molecular Hydrogen


Physical properties


Chemical properties


Use of hydrogen as fuel


8.6 Isotopes of Hydrogen


8.7 Ortho and Para Hydrogen


8.8 Hydrides


Ionic or salt-like hydrides


Covalent hydrides


Metallic (or interstitial) hydrides


Intermediate hydrides


8.9 The Hydrogen Ion


8.10 Hydrogen Bonding


Intermolecular hydrogen bonding


Intramolecular hydrogen bonding


Strength of hydrogen bonding


Extent of hydrogen bonding


Special cases of hydrogen bonding


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


9. The s-Block Elements and their Compounds  Group 1 – The Alkali Metals


9.1 General Properties


Electronic structure


Size of atoms and ions


Density


Ionization energy


Electronegativity and bond type


9.2 Structures of the Metals, Hardness and Cohesive Energy


Melting and boiling points


9.3 Flame Colours and Spectra


9.4 Colour of Compounds


9.5 Chemical Properties


Reaction with water


Reaction with air


Reaction with dinitrogen


9.6 Oxides, Hydroxides, Peroxides and Superoxides


Reaction with air


Normal oxides – monoxides


Hydroxides


Peroxides and superoxides


9.7 Sulphides


9.8 Oxosalts – Carbonates, Bicarbonates, Nitrates, Nitrites and Sulphates


9.9 Halides and Polyhalides


9.10 Hydrides


9.11 Solubility and Hydration


9.12 Solutions of Metals in Liquid Ammonia


9.13 Compounds with Carbon


9.14 Complexes, Crowns and Crypts


9.15 Biological Importance


9.16 Differences between Lithium and the Other Group 1 Elements


9.17 Preparation of Sodium Hydroxide


9.18 Electrolytic Processes


Diaphragm cell


Mercury cathode cell


9.19 Preparation of Sodium Carbonate


9.20 The Solvay (or Ammonia – Soda) Process


Group 2 – The Alkaline Earth Elements


9.21 General Properties


Electronic structure


Size of atoms and ions


Ionization energy


Electronegativity


Hydration energies


Solubility and lattice energy


Solutions of the metals in liquid ammonia


9.22 Anomalous Behaviour of Beryllium


9.23 Chemical Properties


Reaction with water


9.24 Hydroxides


9.25 Hardness of Water


9.26 Reaction with Acids and Bases


9.27 Oxides and Peroxides


9.28 Sulphates


9.29 Nitrates


9.30 Hydrides


9.31 Halides


9.32 Nitrides


9.33 Carbides


9.34 Complexes


9.35 Biological Role of Mg2+ and Ca2+


9.36 Differences between Beryllium and the Other Group 2 Elements


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


10. The p-Block Elements and their Compounds


Part 1: The Group 13 Elements


10.1 Oxidation States and Types of Bonds


The (+III) oxidation state


The (+I) oxidation state – the ‘inert pair effect’


10.2 General Properties


Melting points, boiling points and structures i


Size of atoms and ions


Electropositive character


Ionization energy


10.3 Preparation of Boron


10.4 Reactions of Boron


10.5 Reactions of the Other Elements


Reaction with water and air


Reaction with acids and alkalis


Reaction with dioxygen


Reaction with the halogens and sulphate


Alums


Cement


10.6 Compounds of Boron and Oxygen


Boron sesquioxide and the borates


Acidic properties of H3BO3 or B(OH)3


Structures of borates


Borax


Sodium peroxoborate


Qualitative analysis of boron compounds


Fluoboric acid


10.7 The Other Group 13 Oxides


Preparation of Al2O3


Amphoteric behaviour – aluminates


10.8 Tetrahydridoborates (Borohydrides)


10.9 Halides


Trihalides


Dihalides


10.10 Complexes


10.11 Differences Between Boron and the Other Elements (Anomalous Behaviour of Boron)


10.12 Boron Hydrides


Compounds known


Preparation


10.13 Reactions of the Boranes


Hydroboration


Reaction with ammonia


Some other reactions of boranes


10.14 Structures of the Boranes


10.15 Organometallic Compounds


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions


Assertion–Reasoning Type Questions


Integer Answer Type Questions


Matrix–Match Type Questions


Answers


Part 2: The Group 14 Elements


10.16 Structure and Allotropy of the Elements


10.17 Differences Between Carbon, Silicon and the Remaining


Elements


10.18 Physical Properties


Covalent radii


Ionization energy


Melting points


Metallic and non-metallic character


Four-covalent compounds


10.19 Chemical Reactivity


Inert pair effect


10.20 Carbides


Salt-like carbides


Interstitial carbides


Covalent carbides


10.21 Oxygen Compounds of Carbon


Carbon monoxide CO


Carbon dioxide CO2


Carbon suboxides


10.22 Carbonates


10.23 Sulphides of Carbon


10.24 Oxides of Silicon


10.25 Oxides of Tin and Lead


Oxides of Tin


Oxides of Lead


10.26 Silicates


Occurrence in the Earth’s crust


Soluble silicates


10.27 Classification of Silicates


Orthosilicates (neso-silicates)


Pyrosilicates (soro-silicates, disilicates)


Cyclic silicates


Chain silicates


Sheet silicates (phyllo-silicates)


Three-dimensional silicates


10.28 Glass


10.29 Organosilicon Compounds and the Silicones


Organosilicon compounds


Preparation of organosilicon compounds


Silicones


10.30 Hydrides of Silicon


10.31 Complexes


10.32 Internal p Bonding Using d Orbitals


10.33 Halides


Tetrahalides


Catenated halides


Dihalides


10.34 Organic Derivatives


Single Correct Choice Type Questions


Multiple Correct Choice Type Questions


Comprehension Type Questions.


Search Key:- Publisher: Wiley Publication, Author: Sudarsan Guha, ISBN: 9789357465083, No. Of Pages: 696 pages, Price:INR 1019, Binding: Paperback, Wiley's J.D. Lee Inorganic Chemistry for JEE 2025, J.D. Lee Inorganic Chemistry 5th Edition Sudarsan Guha, Wiley J.D. Lee Concise Inorganic Chemistry for JEE Main & Advanced, Best inorganic chemistry book for JEE 2025, J.D. Lee Inorganic Chemistry for JEE English medium, Concise Inorganic Chemistry by J.D. Lee for JEE 2025, J.D. Lee 5th Edition JEE Chemistry book, Sudarsan Guha Wiley J.D. Lee Inorganic Chemistry, Wiley JEE Chemistry 2025 edition, Wiley Inorganic Chemistry by J.D. Lee fifth edition, J.D. Lee Sudarsan Guha JEE Advanced Chemistry, Inorganic Chemistry for JEE 2025 Wiley Publications, Best Wiley book for JEE Inorganic Chemistry, Wiley J.D. Lee Chemistry book for JEE Main 2025, Inorganic Chemistry for IIT JEE Wiley 5th Edition, J.D. Lee Inorganic Chemistry for Main & Advanced 2025, Wiley concise inorganic chemistry 2025 edition, J.D. Lee Inorganic Chemistry Sudarsan Guha JEE, Wiley concise chemistry for JEE 2025 English medium, Wiley Publication J.D. Lee Inorganic Chemistry 2025.

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