Inorganic Chemistry For Iit Jee Main And Advanced Mcgraw Hill Education Rajni Garg Randhir Singh
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Inorganic Chemistry for IIT JEE main and advanced McGraw Hill Education Rajni Garg Randhir Singh
E-Book Information
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Series: IITJEE IIT JEE Chemistry
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Year: 2,019
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Pages: 1,677
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Pages In File: 1,677
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Language: English
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Topic: 296
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Commentary: Inorganic Chemistry for IIT JEE main and advanced McGraw Hill Education Rajni Garg Randhir Singh
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Org File Size: 41,933,293
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Extension: pdf
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Inorganic Chemistry for IIT JEE main and advanced McGraw Hill Education Rajni Garg Randhir Singh
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Toc: Author......Page 3 Title......Page 4 Copyright......Page 6 Contents......Page 8 Preface......Page 23 1.1 Introduction......Page 27 1.2 Rutherford Scattering Experiment......Page 28 1.3 Planck’s Quantum Theory of Radiation......Page 29 1.4 Photoelectric Effect......Page 30 1.5 Atomic Spectrum of Hydrogen......Page 31 1.6 Bohr’s Model of the Atom......Page 32 1.7 Sommerfeld’s Extension of Bohr’s Atomic Model......Page 38 1.8 Dual Character of Matter......Page 40 1.9 Heisenberg’s Uncertainty Principle......Page 42 1.10 Compton Effect......Page 43 1.11 Schrodinger Wave Equation......Page 44 1.12 Quantum Numbers......Page 50 1.13 Probability Distribution Curves......Page 53 1.14 Rules for Filling of Orbitals and Electronic Configuration of Elements......Page 55 Summary......Page 60 Solved Examples......Page 61 Exercises......Page 64 2.1 Nucleus......Page 67 2.2 Composition of the Nucleus......Page 68 2.3 Nuclear Forces......Page 71 2.4 Nuclear Stability......Page 73 2.5 Nuclear Models......Page 76 2.6 Nuclear Reactions......Page 78 2.7 Radioactivity......Page 87 2.8 Radioactive Disintegration......Page 88 2.9 Law of Successive Disintegration: Radioactive Equilibrium......Page 89 2.10 Soddy-Fajans and Russel Group Displacement Law......Page 90 2.11 Artificial Radioactivity......Page 91 2.12 Applications of Radioactive Isotopes......Page 92 Summary......Page 95 Solved Examples......Page 96 Exercises......Page 99 3.1 Introduction......Page 102 3.2 Ionic Bond or Electrovalent Bond......Page 103 3.3 Covalent Bond (Lewis-Langmuir Concept)......Page 106 3.4 Dipole Moment......Page 112 3.5 Coordinate Covalent Bond or Dative Bond......Page 113 3.6 Van der Waals’ Forces or Intermolecular Forces......Page 114 3.7 Hydrogen Bond......Page 116 3.8 Orbital Overlap Theory......Page 120 3.9 Molecular Orbital Theory......Page 130 3.10 Metallic Bond......Page 157 3.11 Hybridisation......Page 162 3.12 Sidgwick – Powell Theory......Page 176 3.13 Valence Shell Electron-pair Repulsion Theory (VSEPR theory)......Page 177 3.14 Shapes of Some Common Molecules......Page 178 3.15 Linnett Double Quartet Theory (LDQ Theory)—Modification of Lewis Longmuir Octet Theory......Page 188 3.16 Resonance......Page 192 Summary......Page 195 Solved Examples......Page 196 Exercises......Page 197 4.1 Introduction......Page 202 4.2 Symmetry Element......Page 203 4.3 Multiplication of Symmetry Operations......Page 209 4.4 Mathematical Group......Page 210 4.5 Matrix Representation of Symmetry Operatio