Wiley Physical Chemistry PDF Download for JEE Mains & Advanced for FREE.

Wiley Physical Chemistry PDF Download for JEE Mains & Advanced for FREE.

Wiley Physical Chemistry –  for Class 11 and Class 12
Author: Wiley
AIR Range: 1 – 100,000
Topics: Physical Chemistry
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Wiley Physical Chemistry For JEE Mains & Advanced

Wiley Physical Chemistry for JEE (Main & Advanced) is a comprehensive text for understanding Physical Chemistry with a focus on the development of problem-solving skills. 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 the learning pattern of the students and obstacles in their learning curve.

Content of Wiley Physical Chemistry

  • Complete chapter theory
  • Solved examples
  • Review questions
  • Numerical problems
  • Additional Objective questions
  • Answers

Reviews on Wiley Physical Chemistry

Awesome loved it, Good for Jee Mains, detailed theory even a 9th or 10th standard student can also understand,last year questions are also added which is an awesome feature of the book,it is enough for 90% preparation.The other 10% is your extra effort in physical chemistry. Also the book was in very good condition. Recommended for all Jee aspirants to master physical chemistry.

A MUST-BUY BOOK IF YOU WANT TO LEARN PHYSICAL CHEMISTRY. BUT NO. OF IS NOT MUCH
BUT IF YOU DO IT WHOLEHEARTEDLY THEN I AN SURE THAT YOU WILL SCORE GOOD AND EXPERIENCE THE DEPTH OF EACH CHAPTER BUT FOR MORE PROBLEMS YOU SHOULD BUY CENGAGE PHYSICAL CHEMISTRY BUT THIS ONE IS ALSO GOOD FOR THEORY

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Download Other Books for JEE

Wiley Physical Chemistry Is A Demanded Book By Many Students So we Are Going To Provide This Book PDF, A lot of Students Demanded This Book pdf So we Are Providing it. This Book Have Detailed Theory it’s Referred to By Many Toppers, Teachers. At First, We will Give a Review of This Book Then The PDF of This Book Which is already available on the internet. Go Bellow And Download the PDF. Wiley Physical Chemistry for JEE (Main & Advanced) is a comprehensive text for understanding physical Chemistry with a focus on the development of problem-solving skills. This adaptation of the book aims to enhance the learning experience of the book, deriving advantage from the adapting author’s experience with the learning pattern of the students and obstacles in their learning curve. The premise is to encourage self-study in students and help them develop an understanding of the concept and build an Aptitude to apply the same learning to solve a problem.

FAQ’s about Wiley Physical Chemistry

Is Wiley’s physical chemistry good?
Awesome loved it, Good for Jee Mains, detailed theory even a 9th or 10th standard student can also understand, last year questions are also added which is an awesome feature of the book, it is enough for 90% preparation. The other 10% is your extra effort in physical chemistry. Also, the book was in very good condition.
Are Wiley books good for JEE?
Very good book for IIT-JEE mains and advance preparation. Very good book for IIT jee mains and advance preparation. Great physical chemistry book by Wiley India team.
Which is better, Wiley’s Physical Chemistry or Cengage Learning?
Wiley’s Physical Chemistry is better than Cengage physical chemistry as they contain irrelevant stuff with a lot of errors. Simply it will waste your time, money, and efforts you put in. Concepts of Physical Chemistry are built from practicing a variety of good problems

Table of Content of Wiley Physical Chemistry

  • Textbook
  • 1 Mole Concept–I
  • 1.1 Basic Concepts
  • 1.2 Mole – Basic Introduction  
  • 1.3 Percentage Composition
  • 1.4 Mole Concept – Stoichiometry
  • 1.5 Principle of Atom Conservation (POAC)
  • 1.6 Concentration Terms
  • 1.7 Miscellaneous Application of Mole Concept: Gravimetric Analysis  
  • 2 Mole Concept–II
  • 2.1 Oxidation Number Concept
  • 2.2 Oxidation and Reduction
  • 2.3 Calculation of -Factor in a Reaction
  • 2.4 Balancing of Redox Reactions
  • 2.5 Concept of Equivalent Mass
  • 2.6 Stoichiometry of Redox Reactions and Concept of Gram Equivalents
  • 2.7 Volumetric Analysis
  • 2.8 Types of Titrations
  • 2.9 Applications of Redox Reactions
  • 3 Gaseous and Liquid States
  • 3.1 Characteristics of Gases
  • 3.2 Pressure as Measured Property of Gas
  • 3.3 Gas Laws
  • 3.4 Ideal Gas Law  
  • 3.5 Payload  
  • 3.6 Variation of Pressure with Change in Density of Fluid
  • 3.7 Faulty Barometer
  • 3.8 Dalton’s Law of Partial Pressures
  • 3.9 Graham’s Law of Effusion and Diffusion 145
  • 3.10 Kinetic Theory of Gases
  • 3.11 Molecular Collisions
  • 3.12 Real Gases and Their Deviation from Ideal Gas Behavior
  • 3.13 Compressibility Factor
  • 3.14 Liquefaction of Gases
  • 3.15 Law of Corresponding States
  • 3.16 Heat Capacity and Specific Heats of Gases
  • 3.17 Liquid State
  • 3.18 Intermolecular Forces in Liquids
  • 3.19 Characteristic Properties of Liquids: Surface Tension and Viscosity
  • 4 Solid State
  • 4.1 Classification of Solids
  • 4.2 Crystal Lattices and Unit Cells
  • 4.3 Calculations Involving Unit Cell Dimensions
  • 4.4 Cubic Lattice – Simple, Face Centered and Body Centered
  • 4.5 Close-Packing in Crystals
  • 4.6 Packing Efficiency and Packing Fraction
  • 4.7 Tetrahedral and Octahedral Voids
  • 4.8 Radius Ratio Rule and Ionic Radius
  • 4.9 Simple Ionic Compounds
  • 4.10 X-Ray Diffraction Used to Study Crystal Structures (Bragg’s Law)  
  • 4.11 Defects in Crystals
  • 4.12 Electrical Properties of Solids
  • 4.13 Magnetic Properties of Solids
  • 4.14 Dielectric Properties of Solids
  • 5 Atomic Structure
  • 5.1 Discovery of Electron
  • 5.2 Discovery of Protons and Neutrons
  • 5.3 Some Prerequisites of Physics
  • 5.4 Atomic Models
  • 5.5 Representation of Atom with Electrons and Neutrons
  • 5.6 Nature of Waves
  • 5.7 Nature of Electromagnetic Radiation
  • 5.8 Planck’s Quantum Theory
  • 5.9 Spectra – Continuous and Discontinuous Spectrum
  • 5.10 Bohr’s Model for Hydrogen Atom
  • 5.11 Photoelectric Effect
  • 5.12 Dual Nature of Matter
  • 5.13 Heisenberg’s Uncertainty Principle
  • 5.14 Number of Waves Made by the Electron
  • 5.15 Quantum Mechanical Model of Atom
  • 5.16 Radial and Angular Wave Functions
  • 5.17 Orbitals and Quantum Numbers
  • 5.18 Electronic Configuration of Atoms
  • 5.19 Magnetic Properties
  • 6 Chemical Bonding
  • 6.1 Chemical Bond Formation – Kössel–Lewis Approach
  • 6.2 Lewis Structures of Simple Molecules
  • 6.3 Formal Charge
  • 6.4 Covalent Bonding 360
  • 6.5 Coordinate or Dative Bonding
  • 6.6 Valence Bond Theory
  • 6.7 Hybridization
  • 6.8 The Valence Shell Electron Pair Repulsion (VSEPR) Theory and Shapes of Simple Molecules
  • 6.9 Back Bonding
  • 6.10 Ionic Bonding
  • 6.11 Dipole Moment
  • 6.12 Resonance Structures
  • 6.13 Hydrogen Bonding
  • 6.14 Molecular Orbital Theory
  • 6.15 Concept of Bond Order, Bond Length and Bond Energy  
  • 6.16 Bonding in Some Homonuclear Diatomic Molecules
  • 6.17 Heteronuclear Diatomic Molecules
  • 6.18 Elementary Idea of Metallic Bonding
  • 6.19 Weak Forces
  • 6.20 Interactions between Ions and Covalent Molecules
  • 7 Chemical Energetics
  • 7.1 Fundamentals of Thermodynamics
  • 7.2 The Zeroth Law of Thermodynamics
  • 7.3 Energy of the Thermodynamic System
  • 7.4 The First Law of Thermodynamics
  • 7.5 Calculation of Work Done in Different Processes
  • 7.6 Enthalpy or Heat Content,  
  • 7.7 Expansion and Compression of an Ideal Gas
  • 7.8 Joule–Thomson Effect and Inversion Temperature
  • 7.9 Calorimetry
  • 7.10 Thermochemistry
  • 7.11 Thermochemical Equations
  • 7.12 Laws of Thermochemistry
  • 7.13 Enthalpies of Different Types of Reactions
  • 7.14 Bond Enthalpy and Bond Dissociation Enthalpy
  • 7.15 Spontaneity
  • 7.16 Carnot Cycle
  • 7.17 Entropy and Spontaneity
  • 7.18 Gibbs Energy and Spontaneity
  • 7.19 Second Law of Thermodynamics
  • 7.20 Gibbs Energy Change and Equilibrium
  • 7.21 Third Law of Thermodynamics
  • 8 Solutions
  • 8.1 Type of Solutions
  • 8.2 Solubility
  • 8.3 Effect of Nature of Solute and Solvent
  • 8.4 Effect of Temperature on Solubility
  • 8.5 Effect of Pressure on Solubility of Gases
  • 8.6 Different Methods for Expressing Concentration of Solution
  • 8.7 Vapor Pressure of Solutions
  • 8.8 Enthalpy of Solution
  • 8.9 Ideal Solutions
  • 8.10 Non-Ideal Solutions
  • 8.11 Colligative Properties and Determination of Molar Mass
  • 8.12 Abnormal Molar Masses and van ’t Hoff Factor
  • 9 Chemical Equilibrium
  • 9.1 Physical Equilibria
  • 9.2 Chemical Equilibria – Dynamic Equilibrium
  • 9.3 Law of Chemical Equilibrium and Equilibrium Constant
  • 9.4 Homogeneous and Heterogeneous Equilibria
  • 9.5 Applications of Equilibrium Constants
  • 9.6 Gibbs Energy Change and Chemical Equilibrium
  • 9.7 Simultaneous Equilibrium
  • 9.8 Le Chatelier’s Principle and Factors Affecting Equilibria
  • 10 Ionic Equilibrium
  • 10.1 Weak and Strong Electrolytes
  • 10.2 Ionization of Electrolytes
  • 10.3 Concepts of Acids and Bases
  • 10.4 Acid–Base Equilibria and Ionization Constants
  • 10.5 Relative Strength of Acids and Bases
  • 10.6 Ionization of Polyprotic Acids
  • 10.7 Factors Affecting Acid Strength
  • 10.8 Acid–Base Neutralization – Formation of Salts
  • 10.9 pH Calculation of Single Monobasic Acid or Monoacidic Base
  • 10.10 pH Calculation of a Mixture of Two Acids or Bases
  • 10.11 pH Calculation for Polyprotic Acids
  • 10.12 Hydrolysis of Salts and pH of Their Solutions
  • 10.13 Buffer Solutions
  • 10.14 Acid–Base Titrations
  • 10.15 Theory of Indicators
  • 10.16 Solubility Equilibria of Sparingly Soluble Salts
  • 10.17 Preferential Precipitation of Salts
  • 10.18 Applications of Solubility Product
  • 11 Electrochemistry
  • 11.1 Electrochemical Cells
  • 11.2 Electrode Potential
  • 11.3 Measurement of Electrode Potential
  • 11.4 Thermodynamics of a Cell
  • 11.5 Nernst Equation
  • 11.6 Calculation of °cell
  • 11.7 Types of Electrodes
  • 11.8 Concentration Cells  
  • 11.9 Electrolytic Cells and Electrolysis 789
  • 11.10 Applications of Electrolytic Process
  • 11.11 Batteries
  • 11.12 Electrical Conductance
  • 11.13 Conductance in Solutions of Electrolytes
  • 11.14 Conductometric Titrations
  • 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 88312.14 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 935
  • 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 Effects of Radiation
  • 14.14 Applications of Radioactivity
  • Solved Objective Questions from Previous Year Papers
  • Review Questions
  • Numerical Problems
  • Additional Objective Questions
  • Answers
  • Appendix A
  • Appendix B
  • JEE (Advanced) Paper
  • JEE (Main) Paper
  • Index

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