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Related lectures (27)
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Transition Metal Complexes
Explains the 18 Valence Electron rule for stability in transition metal complexes and the common ligands' electron contributions.
Chemical Bonding: Lewis Structures and Molecular Shapes
Explores chemical bonding, Lewis structures, molecular shapes, and molecular polarity.
Chemical Bonding: Lewis Structures
Explores electronic configurations, chemical bonding, and Lewis structures for stable octets and shared electrons.
Molecular Geometry: Lewis Structures
Explains drawing Lewis structures, assigning charges, and determining molecular geometries based on electronic repulsion energy.
Organometallic Chemistry: Fundamentals
Covers the fundamentals of organometallic chemistry, including ligand types, bonding, reactivity, and applications in catalysis and medicine.
Untitled
Resonance in Molecules: Stabilization and Reactivity
Delves into resonance in molecules, focusing on electron stabilization and reactivity through delocalization.
Chemical Bonds: Lewis Structures and Molecular Geometry
Explains chemical bonding, focusing on Lewis structures and molecular geometry using VSEPR theory.
Drift Velocity and Electron Count
Involves a quiz on calculating electron drift velocity and count in a conductor.
Metal Carbonyls and Their Applications: Understanding Catalysis
Discusses metal carbonyls and carbines, focusing on their bonding, reactivity, and applications in catalysis.
Electrophilic Substitution: Mechanisms and Selectivity
Explores electrophilic substitution reactions, emphasizing mechanisms and selectivity in aromatic compounds.
Chemical Bonds: Types and Properties
Explores various chemical bond types and interactions between atoms through electrons, emphasizing the significance of understanding these bond characteristics.
Chemical Bonding: Lewis Structures and Molecular Geometries
Explores chemical bonding through Lewis structures, molecular geometries, and dipole moments.
Basic Concepts in Organic Chemistry
Introduces the basic concepts of organic chemistry and their practical applications in various industries and everyday life.
Chemical Bonding: Basics and Types
Covers the basics of chemical bonding, including types of bonds, bond polarity, and ion behavior in solution.
Chemical Bonds: Types and Representation
Explores chemical bonds, electron sharing, Lewis theory, and bond representation in 2D and 3D, emphasizing ionic compound properties and bond types.
Chemical Bonding: Hybridization and Resonance
Explores chemical bonding through hybridization, resonance, and acid-base reactions in molecular structures.
Crystal Field Stabilization Energy Calculation
Explains the calculation of crystal field stabilization energy for a high spin complex.
Atomic Orbitals and Molecular Bonding
Explores atomic orbitals, molecular bonding, valence electrons, hybridization, and molecular structure with multiple bonds.
Semiconductor Physics: Band Formation and Experiments
Covers semiconductor band formation and presents experiments demonstrating charge carrier behavior and wave-particle duality in electrons.
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