Wiley's Physical Chemistry for JEE (Main & Advanced) 2019 Edition at Meripustak

Wiley's Physical Chemistry for JEE (Main & Advanced) 2019 Edition

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Books from same Publisher: Wiley Blackwell

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  • General Information  
    Author(s)Wiley Editorial Team
    PublisherWiley Blackwell
    Edition2019 Edition
    Publish YearJuly 2018


    Wiley Blackwell Wiley's Physical Chemistry for JEE (Main & Advanced) 2019 Edition by Wiley Editorial Team

    Wiley Physical Chemistry for JEE (Main & Advanced) is a comprehensive text for understanding Physical Chemistry with focus on development of problem-solving skill. The purpose of adaptation of this book is to make the learning experience more complete and help students develop a thought process about a given concept and build an aptitude to apply the same to solve a problem. The adaptation adds the distilled teaching expertise of the author to the original text, supplementing it with additional concepts and solved problems at appropriate places based on his experience of learning pattern of the students and obstacles in their learning curve.

    Table of Content:-

    1. Basic Concepts and Stoichiometry
    1.1 Matter and Its Nature
    1.2 Dalton’s Atomic Theory
    1.3 Concept of Atom, Molecule, Element and Compound
    1.4 Representation of Physical Quantities
    1.5 Precision and Accuracy
    1.6 Significant Figures
    1.7 The International System of Units (S.I.)
    1.8 Physical Quantities and Their Measurements
    1.9 Dimensional Analysis
    1.10 Laws of Chemical Combinations
    1.11 Atomic, Molecular and Equivalent Masses
    1.12 Mole Concept and Molar Masses
    1.13 Percentage Composition
    1.14 Empirical and Molecular Formulae
    1.15 Chemical Equations and Stoichiometry
    1.16 Reactions in Solutions
    1.17 Gravimetric Analysis
    1.18 Volumetric Analysis

    2. Gaseous and Liquid States
    2.1 Characteristics of Gases
    2.2 Pressure as Measured Property of Gas
    2.3 Gas Laws
    2.4 Ideal Gas Law
    2.5 Graham’s Law of Effusion and Diffusion
    2.6 Dalton’s Law of Partial Pressures
    2.7 Kinetic Molecular Theory
    2.8 Real Gases and Their Deviation from Ideal Gas Behavior
    2.9 Compressibility Factor
    2.10 Liquefaction of Gases
    2.11 Heat Capacity and Specific Heats of Gases
    2.12 Liquid State
    2.13 Intermolecular Forces in Liquids
    2.14 Characteristic Properties of Liquids: Surface Tension and Viscosity

    3. Solid State
    3.1 Classification of Solids
    3.2 Crystal Lattices and Unit Cells
    3.3 Calculations Involving Unit Cell Dimensions
    3.4 Cubic Lattice – Simple, Face Centered and Body Centered
    3.5 Close-Packing in Crystals
    3.6 Packing Efficiency and Packing Fraction
    3.7 Tetrahedral and Octahedral Voids
    3.8 Radius Ratio Rule and Ionic Radius
    3.9 X-Ray Diffraction Used to Study Crystal Structures (Bragg’s Law)
    3.10 Simple Ionic Compounds
    3.11 Defects in Crystals
    3.12 Electrical Properties of Solids
    3.13 Magnetic Properties of Solids
    3.14 Dielectric Properties of Solids

    4. Atomic Structure
    4.1 Discovery of Electron
    4.2 Discovery of Protons and Neutrons
    4.3 Atomic Models
    4.4 Representation of Atom with Electrons and Nucleons Isobars and Isotopes
    4.5 Nature of Electromagnetic Radiations
    4.6 Line Spectra of Hydrogen
    4.7 Bohr’s Model for Hydrogen Atom
    4.8 Dual Nature of Matter
    4.9 Quantum Mechanical Model of Atom
    4.10 Radial and Angular Wave Functions
    4.11 Orbitals and Quantum Numbers
    4.12 Rules for Filling of Orbitals in Atom
    4.13 Electronic Configuration of Atoms
    4.14 Stability of Completely Filled and Half-filled Subshells
    4.15 Magnetic Properties

    5. Chemical Bonding
    5.1 Chemical Bond Formation – Kössel–Lewis Approach
    5.2 Lewis Structures of Simple Molecules
    5.3 Formal Charge
    5.4 Ionic Bonding
    5.5 Covalent Bonding
    5.6 Coordinate or Dative Bonding
    5.7 Resonance Structures
    5.8 Exceptions to the Octet Rule
    5.9 The Valence Shell Electron Pair Repulsion (VSEPR) Theory and Shapes of Simple Molecules
    5.10 Quantum Mechanical Theory of Chemical Bonding
    5.11 Valence Bond Theory
    5.12 Hybridization
    5.13 Molecular Orbital Theory
    5.14 Concept of Bond Order, Bond Length and Bond Energy
    5.15 Bonding in Some Homonuclear Diatomic Molecules
    5.16 Heteronuclear Diatomic Molecules
    5.17 Back Bonding
    5.18 Elementary Idea of Metallic Bonding
    5.19 Hydrogen Bonding

    6. Thermodynamics
    6.1 Fundamentals of Thermodynamics
    6.2 The Zeroth Law of Thermodynamics
    6.3 Energy of the Thermodynamic System
    6.4 The First Law of Thermodynamics
    6.5 Interpretation of First Law of Thermodynamics
    6.6 Enthalpy or Heat Content, H
    6.7 Heat Capacity
    6.8 Expansion and Compression of an Ideal Gas
    6.9 Joule–Thomson Effect and Inversion Temperature
    6.10 Calorimetry
    6.11 Thermochemistry
    6.12 Thermochemical Equations
    6.13 Laws of Thermochemistry
    6.14 Enthalpies of Different Types of Reactions
    6.15 Bond Enthalpy and Bond Dissociation Enthalpies
    6.16 Spontaneity
    6.17 Entropy and Spontaneity
    6.18 Gibbs Energy and Spontaneity
    6.19 Second Law of Thermodynamics
    6.20 Gibbs Energy Change and Equilibrium
    6.21 Carnot Cycle
    6.22 Third Law of Thermodynamics

    7. Solutions
    7.1 Type of Solutions
    7.2 Solubility
    7.3 Effect of Nature of Solute and Solvent
    7.4 Effect of Temperature on Solubility
    7.5 Effect of Pressure on Solubility of Gases
    7.6 Different Methods for Expressing Concentration of Solution
    7.7 Vapor Pressure of Solutions
    7.8 Enthalpy of Solution
    7.9 Ideal Solutions
    7.10 Non-Ideal Solutions
    7.11 Colligative Properties and Determination of Molar Mass
    7.12 Abnormal Molar Masses and van′t Hoff Factor

    8. Chemical Equilibrium
    8.1 Physical Equilibria
    8.2 Chemical Equilibria – Dynamic Equilibrium
    8.3 Law of Chemical Equilibrium and Equilibrium Constant
    8.4 Homogeneous and Heterogeneous Equlibria
    8.5 Applications of Equilibrium Constants
    8.6 Gibbs Energy Change and Chemical Equilibrium
    8.7 Le Chatelier’s Principle and Factors Affecting Equilibria

    9. Ionic Equilibrium
    9.1 Weak and Strong Electrolytes
    9.2 Ionization of Electrolytes
    9.3 Concepts of Acids and Bases
    9.4 Ionization of Acids and Bases or Acid–Base Equilibria and Ionization Constants
    9.5 Relative Strength of Acids and Bases
    9.6 Ionization of Polyprotic Acids
    9.7 Factors Affecting Acid Strength
    9.8 Acid–Base Neutralization-Formation of Salts
    9.9 Ionic Product of Water
    9.10 pH Concept
    9.11 Solving Acid–Base Equilibria Problems
    9.12 Common Ion Effect in the Ionization of Acids and Bases
    9.13 Hydrolysis of Salts and the pH of their Solutions
    9.14 Buffer Solutions
    9.15 Solubility Equilibria of Sparingly Soluble Salts
    9.16 Preferential Precipitation of Salts
    9.17 Applications of Solubility Product
    9.18 Theory of Indicators
    9.19 Acid–Base Titrations

    10. Redox Reactions
    10.1 Classical Concept of Oxidation and Reduction
    10.2 Oxidation and Reduction as Electron Transfer Reactions
    10.3 Displacement Reactions and Activity Series
    10.4 Oxidation Number and Oxidation State
    10.5 Types of Redox Reactions
    10.6 Balancing of Redox Reactions
    10.7 Applications of Redox Reactions
    10.8 Redox Titrations
    10.9 Stoichiometry of Redox Reactions and Concept of Gram Equivalents

    11. Electrochemistry
    11.1 Electrical Conductance
    11.2 Conductance in Solutions of Electrolytes
    11.3 Kohlrausch’s Law
    11.4 Conductometric Titrations
    11.5 Electrochemical Cells
    11.6 Electrode Potential
    11.7 Measurement of Electrode Potential
    11.8 Thermodynamics of a Cell
    11.9 Nernst Equation
    11.10 Types of Electrodes
    11.11 Concentration Cells
    11.12 Electrolytic Cells and Electrolysis
    11.13 Applications of Electrolytic Process
    11.14 Batteries
    11.15 Fuel Cells

    12. Chemical Kinetics
    12.1 Rate of a Chemical Reaction
    12.2 Factors Influencing Rate of a Reaction
    12.3 Differential Rate Expression and Rate Constant
    12.4 Elementary and Complex Reactions
    12.5 Molecularity of a Reaction
    12.6 Order of a Reaction
    12.7 Calculations of Order and Molecularity Based on Reaction Mechanisms
    12.8 Pseudo Order Reactions
    12.9 Integrated Rate Equations
    12.10 Half-Life of Reactions and Radioactivity
    12.11 Derivation of Rate Laws for Complex Reactions Using Integrated Rate Equations
    12.12 Determination of Order of Simple Reactions – Experimental Methods
    12.13 Effect of Temperature – Arrhenius Theory
    12.14 Effect of Catalyst
    12.15 Collision Theory

    13. Surface Chemistry
    13.1 Adsorption
    13.2 Factors Affecting Adsorption
    13.3 Adsorption Isotherms
    13.4 Some Applications of Adsorption
    13.5 Catalysis
    13.6 Types of Catalytic Reactions
    13.7 Theory of Heterogeneous Catalysis
    13.8 Shape-Selective Catalysis by Zeolites
    13.9 Enzyme Catalysis
    13.10 Catalysts in Industry
    13.11 Colloids
    13.12 Preparation of Colloids
    13.13 Purification of Colloidal Solutions
    13.14 Properties of Colloidal Solutions
    13.15 Coagulation or Precipitation and Hardy–Schulze Rule
    13.16 Protection of Colloids
    13.17 Emulsions
    13.18 Role of Colloids in Natural Phenomena and in Industry

    14. Nuclear Chemistry
    14.1 Radioactivity
    14.2 Structure of Atom
    14.3 Stability of Nucleus
    14.4 Modes of Radioactive Decay
    14.5 Decay Mechanism in Neutron-Rich and Neutron-Poor Nuclides
    14.6 Binding Energy and Nuclear Stability
    14.7 The Kinetics of Radioactive Decay
    14.8 Radioactive Equilibrium
    14.9 Activity of Radioactive Substances, Detection and Units of Radioactivity
    14.10 Natural vs. Induced Radioactivity
    14.11 Transmutation
    14.12 Nuclear Reactions
    14.13 Biological Effect of Radiation
    14.14 Applications of Radioactivity
    Solved Objective Questions from Previous Year Papers
    Review Questions
    Numerical Problems
    Additional Objective Questions
    JEE (Main) Chemistry Paper
    JEE (Advanced) Chemistry Paper