LINKS BY TOPICS (TEKS)
Category 1:
C.4.A differentiate between physical and chemical changes and properties
Properties of Matter Video
Physical and Chemical Properties and Changes Video
Physical & Chemical Properties Explained Video
Brain Pop Changes
C.4.B identify extensive and intensive properties
Video Properties and State
Terms Game
PHET Density
Extensive/Intensive Video
C.4.C compare solids, liquids, and gases in terms of compressibility, structure, shape, and volume
States Compared
Brain Pop States
C.4.D classify matter as pure substances or mixtures through investigation of their properties
Video Element, Compound, Mixture
Separating Mixture Simulation Lab
C.5.A explain the use of chemical and physical properties in the historical development of the Periodic Table
100 Greatest Discovery Bill Nye
Holt Reading
Summary of Historical Development of PT
C.5.B use the Periodic Table to identify and explain the properties of chemical families, including alkali metals, alkaline earth metals, halogens, noble gases, and transition metals
Review of PT and Families
Periodic Table Groups
Holt Reading
C.5.C use the Periodic Table to identify and explain periodic trends, including atomic and ionic radii, electronegativity, and ionization energy
Periodic Table Trends Video
Other Periodic Trends Video
Holt Reading
Periodic Trends Video
Radius Video
Electronegativity Video
Explain TAMU notes
Category 2
C.6.A understand the experimental design and conclusions used in the development of modern atomic theory, including Dalton’s Postulates, Thomson’s discovery of electron properties, Rutherford’s nuclear atom, and Bohr’s nuclear atom
Cathode Ray
Thomson
Rutherford Video
Thomson vs Rutherford
Line Spectrum Animation
History of Atom1
History of the Atom 2
BrainPop Models of Atom
C.6.B understand the electromagnetic spectrum and the mathematical relationships between energy, frequency, and wavelength of light
Electromagnetic Radiation
BrainPOP Waves
Light Waves
Electromagnetic Radiation Holt Reading
C.6.C calculate the wavelength, frequency, and energy of light using Planck’s constant and the speed of light
Calculations
Light
Video Calculation Examples
C.6.D use isotopic composition to calculate average atomic mass of an element
Isotope Notation
Isotopes, PHET Simulation
Calculations
BrainPop Isotopes
C.6.E express the arrangement of electrons in atoms through electron configurations and Lewis valence electron dot structures
Electron Configurations
Electron Configurations Part 1 - Flipped Learning
Electron Configurations Part 2 - Flipped Learning
Electron Configuration Tutorial
Electron Configuration
Using PT to Write Electron configuration
C.12.A describe the characteristics of alpha, beta, and gamma radiation
Radioactivity
PHET Alpha Decay
PHET Beta Decay
Characteristic of Types of Radiation Video
C.12.B describe radioactive decay process in terms of balanced nuclear equations
Nuclear Reactions
Balancing Nuclear Equations Video
C.12.C compare fission and fusion reactions
Fission
PHET Fission
Fission and Fusion
Fission and Fusion
Holt Reading
Category 3
C.7.A name ionic compounds containing main group or transition metals, covalent compounds, acids, and bases, using International Union of Pure and Applied Chemistry (IUPAC) nomenclature rules
Naming Molecular Compounds
Naming Ionic Compounds
Writing Formulas and Nomenclature
Naming Acids
Ionic Nomenclature Tutorial
Practice Naming Interactive
C.7.B write the chemical formulas of common polyatomic ions, ionic compounds containing main group or transition metals, covalent compounds, acids
How to Write Formulas
Formulas
Formula Simulation
C.7.C construct electron dot formulas to illustrate ionic and covalent bonds
Drawing Dot Diagrams
Dots
Lewis Structures
Draw Dot
VSPERDots Video
Molecular Shape Video (only need octet)
Holt Reading VSPER
C.7.D describe the nature of metallic bonding and apply the theory to explain metallic properties such as thermal and electrical conductivity, malleability, and ductility
Metallic Bonding Video
Metallic Bonding Video
Metals
C.7.E predict molecular structure for molecules with linear, trigonal planar, or tetrahedral electron pair geometries using Valence Shell Electron Pair Repulsion (VSEPR) theory
VSPER No Exceptions Animation
PHET VSPER
VSPER Notes Slides
VSPER
VSPER Video
VSPER Chart
(only responsible for molecules with 8 or less electrons around the center atom)
C.8.A define and use the concept of a mole
Mole Defined Video
Avogadro's Number
Definition of Mole
Holt Mole Concept Example/Practice
C.8.B use the mole concept to calculate the number of atoms, ions, or molecules in a sample of material
Mole Concept Video
Mole Video watch # 11;
How to Calculate Molar Mass
Mole Calculations Examples
Holt Mole Example/ Problems
C.8.C calculate percent composition and empirical and molecular formulas
Percent Composition
% Composition Calculated
Empirical & Molecular Formulas
Empirical and Molecular, Formulas Video Tutorial
Example Video 1
Example Video 2
Molecular Formula Video 1
Molecular Formula Video 2
Holt Example/ Problem Practice
C.8.D use the law of conservation of mass to write and balance chemical equations
Balancing Equations
Balancing
LCM
PHET Balancing
Balancing Equations Tutorial
Balancing
Balancing Video
C.8.E perform stoichiometric calculations, including determination of mass relationships between reactants and products, calculation of limiting reagents, and percent yield
Mole Ratio
Intro Stoichiometry 1 Video
Intro Stoichiometry 2 Video
Intro Stoichiometry 3 Video
Stoichiometry Explained
Stoichiometry Video
Stoichiometry Problems Worked
Stoichiometry Made Easy Video
Example
Limiting Reagent
Limiting Reagent
Limiting Problems Worked
Limiting Example
%Yield
Video Tutorial Limiting Reagents
Limiting Made Easy Video
Holt Problem Example/Practice
Category 4
C.9.A describe and calculate the relations between volume, pressure, number of moles, and temperature for an ideal gas as described by Boyle’s law, Charles’ law, Avogadro’s law, Dalton’s law of partial pressure, and the ideal gas law
Intro Gases Video
Intro Gases Video 2
Charles Law Video
Gas Laws
Gas Laws Explained Video
Charles' Law
Charles' Law 2
Charles' Law Simulated
Boyle's Law
Boyle's Law 2
Boyle's Law Simulated
Dalton's law of Partial Pressure
Molar Volume
Gas Laws Simulation
Molar Volume Lab Video
Molar Volume Lab Simulation
Gas Law Problems Examples 1
Combine Gas Law Problem Examples
Ideal Gas Law Problem Examples
Gas Law Overview Video
Holt Problem Example/Practice
Holt Ideal Problem/Example
C.9.B perform stoichiometric calculations, including determination of mass and volume relationships between reactants and products for reactions involving gases
Problem Solving Guide
Video Example
Short Cut Gas Stoichiometry Video
Holt Example/Problem
C.9.C describe the postulates of kinetic molecular theory
KMT
C.11.A understand energy and its forms, including kinetic, potential, chemical, and thermal energies
Energy Diagrams
Forms of Energy
Energy Video
Brain Pop Form of Energy
C.11.B understand the law of conservation of energy and the processes of heat transfer
Transfer Heat
Energy in Chemical Reactions Animation(LCE, ect);
C.11.C use thermochemical equations to calculate energy changes that occur in chemical reactions and classify reactions as exothermic or endothermic
Intro to Calculating Energy Change
Bond Energy Practice
Exo Video
Endo Video
Endothermic and Exothermic Reactions Video
Heat of Formation Problems Video
Holt Heat RX Problems
C.11.D perform calculations involving heat, mass, temperature change, and specific heat
Specific Heat of Metals
Heat Capacity Video
Thermal Energy Video
Specific Heat of Metal Lab Video
Heat(enthalpy) of Fusion and VaporizationVideo Calculations (fusion, vaporization)
C.11.E use calorimetry to calculate the heat of a chemical process
Calorimetry
Calorimetry Problems
Category 5
C.10.A describe the unique role of water in chemical and biological systems
Structure and Properties of Water
Water Video watch #12
Water Video
How Water Works Video
Holt Water Reading
C.10.B develop and use general rules regarding solubility through investigations with aqueous solutions
Video of Lab Determining Solubility Rules
Using Solubility Rules
Solubility Rules Animation
Reading Solubility Curves Video
Practice Using Solubility Rules
Using Solubility Curves Interactivity
More Practice Interactive Solubility Curves
C.10.C calculate the concentration of solutions in units of molarity
Molarity
PHET Molarity
Holt Molarity Examples
C.10.D use molarity to calculate the dilutions of solutions
Dilutions
Dilution Problem
Solving Dilution Problems Video
Holt Dilution Examples
C.10.E distinguish between types of solutions such as electrolytes and nonelectrolytes and unsaturated, saturated, and supersaturated solutions
Saturated Solution
Electrolytes
Super Saturated Solutions
Saturated, Unsaturated, Supersaturated Video
Electrolytes Video
C.10.F investigate factors that influence solubility’s and rates of dissolution such as temperature, agitation, and surface area
Temperature and Solubility
Factors Affecting Solubility Video
Video
Text Page
Notes
C.10.G define acids and bases and distinguish between Arrhenius and Bronsted‐Lowry definitions and predict products in acid-base reactions that form water
Intro Acids & Bases Video
Acids and Bases Video watch # 16
Intro to Acids and Bases Video
C.10.H understand and differentiate among acid acid‐base reactions precipitation reactions, and oxidation-reduction reactions
Oxidation-Reduction Reaction
Redox Video
Precipitation Reaction
Acid/Base Reaction
Single Displacement Reactions
Writing Precipitation Reactions
Holt Precipitation Rx
Holt Neutralization Rx
Holt Redox RX
C.10.I define pH and use the hydrogen or hydroxide ion concentrations to calculate the pH of a solution
pH Calculations
pH pOH Calculations Video 1
pH pOH Calculations part 2 Video
Holt pH Problems;
.10.J distinguish between degrees of dissociation for strong and weak acids and bases
Strong and Weak Acids and Bases
Identifying Strong & Weak Acids and Bases
Strong & Weak Animation
Strong and Weak Video
Category 1:
C.4.A differentiate between physical and chemical changes and properties
Properties of Matter Video
Physical and Chemical Properties and Changes Video
Physical & Chemical Properties Explained Video
Brain Pop Changes
C.4.B identify extensive and intensive properties
Video Properties and State
Terms Game
PHET Density
Extensive/Intensive Video
C.4.C compare solids, liquids, and gases in terms of compressibility, structure, shape, and volume
States Compared
Brain Pop States
C.4.D classify matter as pure substances or mixtures through investigation of their properties
Video Element, Compound, Mixture
Separating Mixture Simulation Lab
C.5.A explain the use of chemical and physical properties in the historical development of the Periodic Table
100 Greatest Discovery Bill Nye
Holt Reading
Summary of Historical Development of PT
C.5.B use the Periodic Table to identify and explain the properties of chemical families, including alkali metals, alkaline earth metals, halogens, noble gases, and transition metals
Review of PT and Families
Periodic Table Groups
Holt Reading
C.5.C use the Periodic Table to identify and explain periodic trends, including atomic and ionic radii, electronegativity, and ionization energy
Periodic Table Trends Video
Other Periodic Trends Video
Holt Reading
Periodic Trends Video
Radius Video
Electronegativity Video
Explain TAMU notes
Category 2
C.6.A understand the experimental design and conclusions used in the development of modern atomic theory, including Dalton’s Postulates, Thomson’s discovery of electron properties, Rutherford’s nuclear atom, and Bohr’s nuclear atom
Cathode Ray
Thomson
Rutherford Video
Thomson vs Rutherford
Line Spectrum Animation
History of Atom1
History of the Atom 2
BrainPop Models of Atom
C.6.B understand the electromagnetic spectrum and the mathematical relationships between energy, frequency, and wavelength of light
Electromagnetic Radiation
BrainPOP Waves
Light Waves
Electromagnetic Radiation Holt Reading
C.6.C calculate the wavelength, frequency, and energy of light using Planck’s constant and the speed of light
Calculations
Light
Video Calculation Examples
C.6.D use isotopic composition to calculate average atomic mass of an element
Isotope Notation
Isotopes, PHET Simulation
Calculations
BrainPop Isotopes
C.6.E express the arrangement of electrons in atoms through electron configurations and Lewis valence electron dot structures
Electron Configurations
Electron Configurations Part 1 - Flipped Learning
Electron Configurations Part 2 - Flipped Learning
Electron Configuration Tutorial
Electron Configuration
Using PT to Write Electron configuration
C.12.A describe the characteristics of alpha, beta, and gamma radiation
Radioactivity
PHET Alpha Decay
PHET Beta Decay
Characteristic of Types of Radiation Video
C.12.B describe radioactive decay process in terms of balanced nuclear equations
Nuclear Reactions
Balancing Nuclear Equations Video
C.12.C compare fission and fusion reactions
Fission
PHET Fission
Fission and Fusion
Fission and Fusion
Holt Reading
Category 3
C.7.A name ionic compounds containing main group or transition metals, covalent compounds, acids, and bases, using International Union of Pure and Applied Chemistry (IUPAC) nomenclature rules
Naming Molecular Compounds
Naming Ionic Compounds
Writing Formulas and Nomenclature
Naming Acids
Ionic Nomenclature Tutorial
Practice Naming Interactive
C.7.B write the chemical formulas of common polyatomic ions, ionic compounds containing main group or transition metals, covalent compounds, acids
How to Write Formulas
Formulas
Formula Simulation
C.7.C construct electron dot formulas to illustrate ionic and covalent bonds
Drawing Dot Diagrams
Dots
Lewis Structures
Draw Dot
VSPERDots Video
Molecular Shape Video (only need octet)
Holt Reading VSPER
C.7.D describe the nature of metallic bonding and apply the theory to explain metallic properties such as thermal and electrical conductivity, malleability, and ductility
Metallic Bonding Video
Metallic Bonding Video
Metals
C.7.E predict molecular structure for molecules with linear, trigonal planar, or tetrahedral electron pair geometries using Valence Shell Electron Pair Repulsion (VSEPR) theory
VSPER No Exceptions Animation
PHET VSPER
VSPER Notes Slides
VSPER
VSPER Video
VSPER Chart
(only responsible for molecules with 8 or less electrons around the center atom)
C.8.A define and use the concept of a mole
Mole Defined Video
Avogadro's Number
Definition of Mole
Holt Mole Concept Example/Practice
C.8.B use the mole concept to calculate the number of atoms, ions, or molecules in a sample of material
Mole Concept Video
Mole Video watch # 11;
How to Calculate Molar Mass
Mole Calculations Examples
Holt Mole Example/ Problems
C.8.C calculate percent composition and empirical and molecular formulas
Percent Composition
% Composition Calculated
Empirical & Molecular Formulas
Empirical and Molecular, Formulas Video Tutorial
Example Video 1
Example Video 2
Molecular Formula Video 1
Molecular Formula Video 2
Holt Example/ Problem Practice
C.8.D use the law of conservation of mass to write and balance chemical equations
Balancing Equations
Balancing
LCM
PHET Balancing
Balancing Equations Tutorial
Balancing
Balancing Video
C.8.E perform stoichiometric calculations, including determination of mass relationships between reactants and products, calculation of limiting reagents, and percent yield
Mole Ratio
Intro Stoichiometry 1 Video
Intro Stoichiometry 2 Video
Intro Stoichiometry 3 Video
Stoichiometry Explained
Stoichiometry Video
Stoichiometry Problems Worked
Stoichiometry Made Easy Video
Example
Limiting Reagent
Limiting Reagent
Limiting Problems Worked
Limiting Example
%Yield
Video Tutorial Limiting Reagents
Limiting Made Easy Video
Holt Problem Example/Practice
Category 4
C.9.A describe and calculate the relations between volume, pressure, number of moles, and temperature for an ideal gas as described by Boyle’s law, Charles’ law, Avogadro’s law, Dalton’s law of partial pressure, and the ideal gas law
Intro Gases Video
Intro Gases Video 2
Charles Law Video
Gas Laws
Gas Laws Explained Video
Charles' Law
Charles' Law 2
Charles' Law Simulated
Boyle's Law
Boyle's Law 2
Boyle's Law Simulated
Dalton's law of Partial Pressure
Molar Volume
Gas Laws Simulation
Molar Volume Lab Video
Molar Volume Lab Simulation
Gas Law Problems Examples 1
Combine Gas Law Problem Examples
Ideal Gas Law Problem Examples
Gas Law Overview Video
Holt Problem Example/Practice
Holt Ideal Problem/Example
C.9.B perform stoichiometric calculations, including determination of mass and volume relationships between reactants and products for reactions involving gases
Problem Solving Guide
Video Example
Short Cut Gas Stoichiometry Video
Holt Example/Problem
C.9.C describe the postulates of kinetic molecular theory
KMT
C.11.A understand energy and its forms, including kinetic, potential, chemical, and thermal energies
Energy Diagrams
Forms of Energy
Energy Video
Brain Pop Form of Energy
C.11.B understand the law of conservation of energy and the processes of heat transfer
Transfer Heat
Energy in Chemical Reactions Animation(LCE, ect);
C.11.C use thermochemical equations to calculate energy changes that occur in chemical reactions and classify reactions as exothermic or endothermic
Intro to Calculating Energy Change
Bond Energy Practice
Exo Video
Endo Video
Endothermic and Exothermic Reactions Video
Heat of Formation Problems Video
Holt Heat RX Problems
C.11.D perform calculations involving heat, mass, temperature change, and specific heat
Specific Heat of Metals
Heat Capacity Video
Thermal Energy Video
Specific Heat of Metal Lab Video
Heat(enthalpy) of Fusion and VaporizationVideo Calculations (fusion, vaporization)
C.11.E use calorimetry to calculate the heat of a chemical process
Calorimetry
Calorimetry Problems
Category 5
C.10.A describe the unique role of water in chemical and biological systems
Structure and Properties of Water
Water Video watch #12
Water Video
How Water Works Video
Holt Water Reading
C.10.B develop and use general rules regarding solubility through investigations with aqueous solutions
Video of Lab Determining Solubility Rules
Using Solubility Rules
Solubility Rules Animation
Reading Solubility Curves Video
Practice Using Solubility Rules
Using Solubility Curves Interactivity
More Practice Interactive Solubility Curves
C.10.C calculate the concentration of solutions in units of molarity
Molarity
PHET Molarity
Holt Molarity Examples
C.10.D use molarity to calculate the dilutions of solutions
Dilutions
Dilution Problem
Solving Dilution Problems Video
Holt Dilution Examples
C.10.E distinguish between types of solutions such as electrolytes and nonelectrolytes and unsaturated, saturated, and supersaturated solutions
Saturated Solution
Electrolytes
Super Saturated Solutions
Saturated, Unsaturated, Supersaturated Video
Electrolytes Video
C.10.F investigate factors that influence solubility’s and rates of dissolution such as temperature, agitation, and surface area
Temperature and Solubility
Factors Affecting Solubility Video
Video
Text Page
Notes
C.10.G define acids and bases and distinguish between Arrhenius and Bronsted‐Lowry definitions and predict products in acid-base reactions that form water
Intro Acids & Bases Video
Acids and Bases Video watch # 16
Intro to Acids and Bases Video
C.10.H understand and differentiate among acid acid‐base reactions precipitation reactions, and oxidation-reduction reactions
Oxidation-Reduction Reaction
Redox Video
Precipitation Reaction
Acid/Base Reaction
Single Displacement Reactions
Writing Precipitation Reactions
Holt Precipitation Rx
Holt Neutralization Rx
Holt Redox RX
C.10.I define pH and use the hydrogen or hydroxide ion concentrations to calculate the pH of a solution
pH Calculations
pH pOH Calculations Video 1
pH pOH Calculations part 2 Video
Holt pH Problems;
.10.J distinguish between degrees of dissociation for strong and weak acids and bases
Strong and Weak Acids and Bases
Identifying Strong & Weak Acids and Bases
Strong & Weak Animation
Strong and Weak Video