Home Chemistry Coach Knowledge Base Diffusion Knowledge Base Search Filters Hide Filters reaction map synthesis problems functional groups product anion anode cathode cation electron lattice energy negatively (-) charged ion nuclear charge polarity positively (+) charged ion proton valence orbitals AXE method bonding pairs bonding patterns central atom ideal bond angle lone pair long-chain molecule molecular geometry molecular shape multiple bonds multiple central atoms non-polar physical properties polar steric number structure of molecules VSEPR atomic spectra blackbody blackbody radiation discrete Planck’s constant quantization Physical Chemistry Organic Chemistry Inorganic Chemistry Chemical Kinetics Chemical Physics Electrochemistry Femtochemistry Geochemistry Photochemistry Quantum chemistry Solid-state chemistry Spectroscopy Stereochemistry Surface science Thermochemistry Calorimetry Biochemistry Neurochemistry Molecular biochemistry Bioorganic chemistry Genetic engineering Biophysical chemistry Medicinal chemistry Organometallic chemistry Physical organic chemistry Polymer chemistry Click chemistry Bioinorganic chemistry Cluster chemistry Materials chemistry Nuclear chemistry Analytical chemistry Astrochemistry Cosmochemistry Computational chemistry Environmental chemistry Green chemistry Supramolecular chemistry Theoretical chemistry Wet chemistry Agrochemistry Atmospheric chemistry Chemical engineering Chemical biology Chemo-informatics Flow chemistry Immunohistochemistry Immunochemistry Chemical oceanography Materials science Mathematical chemistry Mechanochemistry Molecular biology Molecular mechanics Nanotechnology Petrochemistry Pharmacology Phytochemistry Radiochemistry Sonochemistry Synthetic chemistry atoms average kinetic energy chemical properties of matter diffusion gas kinetic kinetic molecular theory lattice liquid molecules particles phase physical properties of matter pressure solid temperature volume periodic table chemical elements of matter periods groups atomic number electron shell configuration filling of electrons in valence shells Dimitri Mendeleev unstable elements transactinides element blocks s-block p-block d-block f-block non-reactive elements metals metalloids nonmetals g-block extended periodic table IUPAC The Long Periodic Table The 32-Column Periodic Table Madelung rule Aufbau principle International System of Units physical quantities defining constants base units derived units cesium hyperfine splitting frequency speed of light vacuum Planck constant elementary charge Boltzmann constant Avogadro constant Kinematic SI Derived Units Mechanical SI Derived Units Molar SI Derived Units Electromagnetic SI Derived Units Photometric SI Derived Units Thermodynamic SI Derived Units International System of Quantities Base Quantities Derived Quantities intensive properties chemical potential concentration density magnetic permeability melting point boiling point specific gravity molality refractive index specific conductance electrical conductivity specific heat capacity specific internal energy specific rotation specific volume standard reduction potential surface tension thermal conductivity viscosity extensive properties amount of substance enthalpy entropy Gibbs energy heat capacity Helmholtz energy internal energy mass volume chemical properties ability to corrode acidity basicity substance chemical stability combustibility enthalpy of formation flammability heat of combustion preferred oxidation state toxicity average atomic mass atomic size electron configuration electronegativity Pauling First Ionization Energy radii Van der Waals covalent valence electrons electron gain enthalpy electron affinity Properties of Matter extensive intensive states of matter properties of elements compound homogeneous mixture heterogeneous mixture Filter By Concept: Atomic Structure Electron Configuration Ionic and Covalent Bonds Nucleophile vs. Electrophile IUPAC Nomenclature Types of Isomers Halogenation of Alkanes Scientific Method and Notation The International System of Units The Properties of Matter Derived Units: Volume, Density, & Energy Uncertainty in Measurement Atoms and Elements States and Classification of Matter The Atomic Theory Atomic Numbers Cations & Anions Naming Ionic Compounds Law of Conservation of Mass Empirical and Molecular Formulas Chemical Reactions and Equations Balancing Chemical Equations Group Classification and Characteristics The Periodic Table Alkyl Halide Reactions Nomenclature of Alcohols Alcohol Protecting Groups Nomenclature of Heterocycles Aromatic Heterocyclopentadienes Synthesis of Amino Acids Peptide Sequencing Nature of Light Photons and Photoelectric Effect Wavelike Properties of Matter Atomic Line Spectra Quantum Numbers Electronic Structure Principles Electron Configurations Ground State and Excited States Electron Affinity Types of Bonding Ionic Compounds Electron Configuration of Ions Ionic Radius Formation of Ionic Solids Lewis Structures Exceptions to the Octet Rule Electronegativity Molecular Shape VSEPR Theory Electron and Molecular Geometry Deviation from Ideal Bond Angles Molecular Geometry and Polarity Molar Mass and Mole Number Valence Bond Theory Single and Multiple Bonds Hybrid Orbitals Molecular Orbital Theory Acid-Base Theories Oxidation-Reduction Reactions Types of Chemical Reactions Atomic Masses Percent Composition by Mass Combustion Analysis Stoichiometry Limiting Reactant Reaction Yield Molarity vs. Molality Electrolytes Acid-Base Titrations Gas Properties The Gas Laws Gas Mixtures The Kinetic Molecular Theory of Gases Internal Energy, Heat and Work Enthalpy Hess's Law Standard Enthalpies of Formation Bond Enthalpies Calorimetry and Heat Capacity Intermolecular Forces Properties of Liquids Vapor Pressure Types of Solutions Gas Diffusion and Effusion Mean Free Path Reaction Rates First-Order Reactions Radioactive Decay Collision Theory The Arrhenius Equation Concentration Units Vapor-Pressure Lowering Boiling-Point Elevation The Concept of Equilibrium Le Châtelier’s Principle Using Equilibrium Expressions Acid-Base Concepts The pH Scale Acid-Base Indicators Solubility Equilibria Precipitation of Ionic Compounds Standard Entropies Oxidation-Reduction Reactions Half Reactions Balancing Equations for Oxidation-Reduction Reactions Electric Energy and Charge Electrochemical Cells Cell Diagrams Lewis Structures The Mole and Avogadro's Number Core and Valence Electrons Effective Nuclear Charge The Octet Rule Lone Pair Effect Factors Favoring SN1 or SN2 Knowledge Base - Chemistry Coach 1 29/11/2023 Les bases de la théorie cinétique moléculaire en chimie. La théorie cinétique moléculaire est un modèle qui tente d'expliquer ce qui se passe en termes de groupes d'atomes et de molécules qui entrent en collision les uns avec les autres... atoms average kinetic energy chemical properties of matter diffusion gas kinetic kinetic molecular theory lattice liquid molecules particles phase physical properties of matter pressure solid temperature volume View Article 2 06/11/2021 The Basics of Kinetic Molecular Theory in Chemistry Kinetic Molecular Theory is a model that attempts to explain what happens in terms of groups of atoms and molecules colliding with each other... atoms average kinetic energy chemical properties of matter diffusion gas kinetic kinetic molecular theory lattice liquid molecules particles phase physical properties of matter pressure solid temperature volume View Article