Knowledge Base
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
Galvanic 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
Cation vs. Anion vs. Ion... Quelle est la différence? Eh bien, à la fois les cations et les anions sont des ions, ils ont simplement des propriétés physiques différentes. Les cations se forment lorsque...
Qu'est-ce qu'une définition simple du tableau périodique ? Le tableau périodique peut être décrit de la manière la plus simple comme un diagramme qui organise les éléments chimiques en une représentation visuelle facile à identifier et à suivre.
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
Quelles sont les propriétés de la matière ? Apprenez-en davantage sur la structure de la matière, les différents états de la matière, les propriétés physiques vs chimiques, et bien plus encore !
intensive properties
chemical potential
concentration
density
magnetic permeability
melting point
boiling point
specific gravity
molality
pressure
refractive index
specific conductance
electrical conductivity
specific heat capacity
specific internal energy
specific rotation
specific volume
standard reduction potential
surface tension
temperature
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
physical properties
extensive
intensive
chemical properties
states of matter
properties of elements
periodic table
compound
homogeneous mixture
heterogeneous mixture
Cation vs. Anion vs. Ion... What is the difference? Well, both cations and anions are ions, they just have different physical properties. Cations are formed when...
What is a Simple Definition of the Periodic Table? The periodic table can most simply be described as a chart that organizes the chemical elements of matter into an easy-to-identify visual flow chart.
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
What are the properties of matter? Learn about the structure of matter, different states of matter, physical vs. chemical properties, and more!
intensive properties
chemical potential
concentration
density
magnetic permeability
melting point
boiling point
specific gravity
molality
pressure
refractive index
specific conductance
electrical conductivity
specific heat capacity
specific internal energy
specific rotation
specific volume
standard reduction potential
surface tension
temperature
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
physical properties
extensive
intensive
chemical properties
states of matter
properties of elements
periodic table
compound
homogeneous mixture
heterogeneous mixture