This note covers the
following topics: Elements- Periodic Table arrangement, Physical Properties,
Nature of Atoms and Electrons, Bohrís Postulates of Electrons, Electromagnetic
Radiation, : Molecular Orbital Theory: Names and Structure of Simple Covalent
Compounds, Bond Theories, Acids and Bases, Inorganic Chemicals: Application in
Chemistry, Agriculture, Medicine and Industry, Redox Potential and Application,
Complex ion Formation.
This PDF Nomenclature of Inorganic Chemistry covers the
following topics related to Inorganic Chemistry : Introduction, History of
chemical nomenclature, Aims of chemical nomenclature, Functions of chemical
nomenclature, Methods of inorganic nomenclature, Changes to previous IUPAC
recommendations, Nomenclature recommendations in other areas of chemistry,
Grammar, Elements, Compositional Nomenclature and Overview of names of ions and
radicals, Parent Hydride names and substitutive nomenclature, Addictive
Nomenclature, Inorganic Acids and Derivatives, Coordination and Compounds,
Organometallic Compounds, Solids.
Author(s): Neil G. Connelly, Richard M. Hartshorn, Ture
Damhus, Alan T. Hutton
This book deals with the synthesis and behavior of inorganic and
organometallic compounds and covers all chemical compounds except the myriad
organic compounds, which are the subjects of organic chemistry.
This book covers
the following topics: Symmetry Elements, Molecular Point Groups, Matrices,
Character Tables, Diatomic Molecular Orbitals, NH3 Molecular Orbitals, Td
Molecular Orbitals, D4h Molecular Orbitals, Pi Donor and Acceptor Ligands,
Normal Modes of Vibration, Selection Rules for IR and Raman Spectroscopy,
Stretching Frequencies and Structure Determination, Vibrational Spectroscopy of
Linear Molecules, Fundamentals of Electron Absorption Spectroscopy, Jahn-Teller
Distortions, Importance and History of Organometallics, Dative ligands: CO and
phosphines, Pi-Ligands, Metal-Alkyl Complexes, Kinetics, Dissociative Mechanism,
Associative Mechanism, Electron Transfer Reactions, Oxidative Addition/Reductive
Elimination, Migratory Insertions, Ziegler-Natta Polymerization, C=M Complexes,
Olefin Metathesis .
chemical analysis, branch of chemistry that deals with the identification of
elements or grouping of elements present in a sample. This book explains the
following topics: Osmotic Pressure and the Theory of Solution, The Theory of
Ionization, Chemical Equilibrium, Physical or Heterogeneous Equilibrium,
Simultaneous Chemical and Physical Equilibrium, Systematic Analysis for the
Common Metal Ions, The Copper and Silver Groups, Oxidation and Reduction
Reactions, Systematic Analysis for Acid Ions.
note provides an introduction to inorganic chemistry with a focus on
fundamentals of atomic and molecular structure and descriptive inorganic chemistry , structure/geometries of small
molecules, bonding theories both in inorganic molecules and in the solid state.
Major topics covered includes: Electrons in atoms, Energy Levels, Quantum
Numbers, Magnetism, Electrons in Molecules, Lone Pair Repulsions, Symmetry in
Molecules, Molecular Orbitals and Diatomics, Acids and Bases, Crystalline Solid
State, Main Group Chemistry and Coordination Chemistry.
This note covers the following topics in inorganic chemistry: Atomic
Structure, Symmetry and Group Theory, Molecular Orbitals, Crystalline Solid
State, Acid- Base and Donor Acceptor Chemistry, Chemistry of the Main Group
Element, Coordination Chemistry.
This book explains essential ideas about redox reactions, and covers the trends in Period 3 and Groups 1, 2, 4 and
7 of the Periodic Table. Also explains the lengthy sections on the chemistry of some
important complex ions, and of common transition metals, Extraction and uses of aluminium, copper, iron, titanium and tungsten.
note covers the following topics: Measurement in science, Dimensions, units, and
symbols table, Area, Volume, Time, Mass, Force, Weight, Velocity, Acceleration,
Pressure, Density, Temperature, Energy, Heat and Concentration.
This note provides a good
understanding and retention of basic chemical principles and factual knowledge
in the core areas of chemistry and demonstrate the ability to apply basic
mathematics and basic chemical principles to find solutions to quantitative
problems and situations.