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Soran University - Faculty of Science Chemistry Department Module Specification Template: 1. Module Title: Inorganic Chemistry : 1 , 2 and 3. 2. Module Leader: Prof. Dr. Jalal Alysha Zora 3. Module Code: 2Y-1S-INOCHM 4. Teaching Semester: Fall Semester / 2014 - 2015 5. Module Level: First Year / Semester : 1 and 2 6. Credit Rating for the module: 3 units 8. Course Module Summary: Text Books: 1. Chemistry (5th Edition) by Gary L. Miessler, Paul J. Fischer and Donald A. Tarr, 2013. 2. Inorganic Chemistry (4th Edition) by Catherine Housecroft and Alan G. Sharpe, 2012. 3. Inorganic Chemistry (4th Edition) by Gary L. Miessler and Donald A. Tarr , 2010 4. Inorganic Chemistry by Duward Shriver and Peter Atkins, 2009. Semester Final Exams (60%) ; Written ( 45) + Lab (15) Two written monthly exams + Quizzes and: (40%) ; Written (25) + Lab (15) 1-5 The main module will be introduced in this course are: Models the Atom Ernest Rutherford’s Model The Bohr’s Model The Bohr’s Model of Hydrogen Limitation of Bohr Theory The Electronic Structure of the Atom Atomic Spectrum Light Spectrum Electromagnetic Spectrum Atomic Line Spectra The Rydberg Equation for Hydrogen Max Planck Electromagnetic Radiation The Quantum Mechanical Model The Schrödinger Wave Equation Heisenberg's Uncertainty Principle Probability of finding the electron Atomic Orbitals Quantum number The Periodic Table of Elements The Periodic Table Notes on the periodic tables Order of Increasing Energy for Atomic orbital Shielding and Penetration Salter Rules for electron shielding Effective Nuclear Charge, Z * Hydrogen Abundant Hydrogen Isotopes Elemental Hydrogen , Deuterium , Tritium Chemistry Properties of hydrogen isotopes Physical Properties of hydrogen isotopes Hydrogen produced in Industry Electrolysis of water The chemistry Reactions of Hydrogen Applications of Hydrogen Binary Metallic Hydrides; Ionic , Covalent , Interstitial Electrolysis of water 2-5 Saline hydride reactions Saline hydride Applications Covalent Binary Hydrides Interstitial Binary Hydrides Lanthanides Hydrides Actinide Hydride d- block transition metal hydride Hydrogen Bond Hydrogen bonds in DNA The Alkali Metals The elements of Group 1; the Alkali Metals Appearance Physical Properties Chemical Properties Oxides Hydroxides Halides Oxidation States lionization Energies Atomic Radius Ionic Radius Standard Electrode Industrial Applications Hydration Enthalpy Solubility Bilogical Applications Lithium: Reactions, Isotopes, produce, compounds, physical, chemical and application. Sodium: Abundant, produce, Isotopes, properties, sodium – mercury , amalgam and reactions. The Alkaline Earth Metals The elements of Group 1; the Alkaline Earth Metals Group Trends Appearance Reactivity Occurrence Extraction Physical Properties Chemical Properties 3-5 Oxides Ionic Radii Beryllium: Discover, Physical properties, Sources, Applications , Biological Role. Magnesium: Discover, Physical properties , Applications, reactions, Biological Role, Isotopes. Calcium: Discover , Abundant, Physical properties, reactions, Isotopes, Applications , Biological Role, Barium: Discover, Abundant, Biological Role, Alkaline Earth Metal Carbonates , Reactions. Transition Metal Chemistry and Coordination Compounds Cobalt Discovered Appearance Source Ores Oxidation States Isotopes Biological Role Vitamin B12 Organometallic chemistry of cobalt Biological functions Cobalt Production Cobalt - 60 Application Spinel structure Cobalt Sulphides & halides Cobalt different complexes Cobalt stereochemistry Cobalt applications Cobalt Radioactive Isotopes Nickel Discovery , Appearance and Source Isotopes Physical properties Producing Mond - Process Nickel Compounds Nickel structures 4-5 Nickel halide Ni complexes Nickel applications Nickel alloys Edison battery Module Specification Template: 1. Module Title: Inorganic Chemistry - 3 2. Module Leader: Prof. Dr. Jalal Alysha Zora 3. Module Code: 4. Teaching Semester: Fall Semester / 2014 - 2015 5. Module Level: Second Year / Semester - 1 6. Credit Rating for the module: 8. Course Module Summary: Semester Final Exams (60%) ; Written ( 45) + Lab (15) Two written monthly exams + Quizzes: (40%) ; Written (25) + Lab (15) The main module will be introduced in this course are: Transition Metals (Complexes) Theories Introduction to Transition Metals Oxidation States of the Transition Metals The Electron Configuration of Transition-Metal Ions Different Typical Ligands Isomers: cis, trans and chiral Isomers Polarized Light and Optically Active Compounds Typical Coordination Numbers International Union of Pure and Applied Chemistry (IUPAC) - Rules for Naming Coordination Complexes Lewis Acid-Lewis base Approach to Bonding in Complexes The Electron Configuration of Transition-Metal Ions Werner's Theory of Coordination Complexes The Valence-Bond Approach to Bonding in Complexes Crystal Field Theory Octahedral Crystal Fields Tetrahedral Crystal Fields Square-Planar Complexes Different Examples 5-5