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Chemistry videos
1. States of Matter. The Atom and the Periodic Table
1.1. Matter. States of Matter
1.2. Elements and Chemical Compounds. Pure Substances and Mixtures
1.3. The Birth of Chemistry
1.4. Atomic Theory. The Atomic Model
1.5. Atomic Number, Mass Number, and Atomic Mass
1.6. Electron Configurations
1.7. Beyond Bohr's Atomic Model
1.8. Redox Reactions
1.9. The Structure of the Periodic Table
1.10. The Noble Gases
1.11. The Alkali Metals and the Halogens
1.12. The Alkaline Earth Metals and the Oxygen Group
1.13. A Few of the Elements in Group 13, 14, and 15
2. Chemical Calculations
2.1. Physical Quantity, Magnitude, and Units
2.2. Atomic Mass, Molecular Mass, and Unit Mass
2.3. Amount of Substance, Molar Mass, and Mass
2.4. Stoichiometry. Conservation of mass
2.5. Water of Crystallization
2.6. Calculating the Formula of a Chemical Compound
2.7. From Empirical to Molecular Formulas
2.8. Equivalent Amounts of Substance and Masses
2.9. Gases and Pressure
2.10. Concentrations
2.11. Dilutions
2.12. Yield
2.13. Limiting Reactants
3. Chemical Bonding
3.1. How Ionic Compounds are Formed
3.2. Precipitations
3.3. Names and Formulas of Ionic Compounds
3.4. Ionic Bonds
3.5. Properties of Ionic Compounds
3.6. Metal Bonding
3.7. Covalent Bonds
3.8. Polar Covalent Bonding
3.9. Dipoles. Polar and non-polar Molecules
3.10. The VSEPR Theory
3.11. Hydrogen Bonding. The Peculiar Water
3.12. Equals Solves Equal
3.13. Solubility of Gases in Water
3.14. Solubility of Salts in Water
4. Thermochemistry
4.1. Endothermic and Exothermic Reactions. Enthalpy.
4.2. Heat Capacity
4.3. More on Enthalpy. Hess’ Law
4.4. More on Phase Transitions
4.5. Entropy. Gibbs’ Free Energy
5. Chemical Equilibrium
5.1. Reaction Rates
5.2. The Law of Mass Action
5.3. Calculations on Chemical Equilibrium
5.4. Heterogenous Equilibria. Solubility Product
5.5. Is the System at Equilibrium? The Reaction Quotient Q
5.6. Changing the Concentrations in a System in Equilibrium.
5.7. Diluting or Compressing Systems in Equilibrium, or Changing the Temperature
6. Acids and bases
6.1. Acids
6.2. Bases
6.3. pH and Dissociation Extent
6.4. The Acid Dissociation Constant, Ka
6.5. The Base Association Constant, Kb
6.6. The Ionic Product of Water, Kw
6.7. Protolysis of Ions
6.8. Neutralization
6.9. Buffers
7. Oxidation and Reduction
7.1. Metals are Reducing Agents
7.2. Halogens are Oxidizing Agents
7.3. Oxidation Numbers
7.4. Using Oxidation Numbers
8. Electrochemistry
8.1. Galvanic Cells
8.2. EMF (Electromotive Force)
8.3. Normal Potentials. The Hydrogen Electrode
8.4. Electrolysis
8.5. Corrosion
9. Organic Chemistry
9.1. Alkanes
9.2. Chain Isomers. Nomenclature
9.3. Haloalkanes
9.4. Nucleophilic Substitution
9.5. Alkenes
9.6. Electrophilic Addition. Markovnikov’s Rule
9.7. Elimination
9.8. Alkynes
9.9. Arenes and Aromatic Compounds
9.10. Alcohols
9.11. Oxidation of Alcohols
9.12. Aldehydes and Ketones
9.13. Thiols and Disulfides
9.14. Ethers
9.15. Amines
9.16. Nitro Compounds and Organic Nitrates
9.17. Carboxylic Acids
9.18. More on Carboxylic Acids
9.19. Stereoisomerism
9.20. Esters
9.21. Lipids
9.22. Mono-, Oligo-, and Polysaccharides
9.23. Amino Acids
9.24. Nucleotides
10. Biochemistry
10.1. Proteins
10.2. Enzymes
10.3. Catabolic Processes
10.4. Carrier Molecules
10.5. Glycolysis
10.6. Beta-oxidation
10.7. The Citric Acid Cycle
10.8. The Metabolism of Amino Acids
10.9. The Electron Transport Chain
10.10. Anabolic Processes
10.11. Gluconeogenesis and Fatty Acid Synthesis
10.12. DNA: Structure and Function
11. Analytical chemistry
11.1. Measurements, Accuracy, and Detection Levels
11.2. Spectrophotometry
11.3. Chromatography
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About Mr. Ehinger's Chemistry
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Mr. Ehinger's Biology
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Home
Chemistry videos
1. States of Matter. The Atom and the Periodic Table
1.1. Matter. States of Matter
1.2. Elements and Chemical Compounds. Pure Substances and Mixtures
1.3. The Birth of Chemistry
1.4. Atomic Theory. The Atomic Model
1.5. Atomic Number, Mass Number, and Atomic Mass
1.6. Electron Configurations
1.7. Beyond Bohr's Atomic Model
1.8. Redox Reactions
1.9. The Structure of the Periodic Table
1.10. The Noble Gases
1.11. The Alkali Metals and the Halogens
1.12. The Alkaline Earth Metals and the Oxygen Group
1.13. A Few of the Elements in Group 13, 14, and 15
2. Chemical Calculations
2.1. Physical Quantity, Magnitude, and Units
2.2. Atomic Mass, Molecular Mass, and Unit Mass
2.3. Amount of Substance, Molar Mass, and Mass
2.4. Stoichiometry. Conservation of mass
2.5. Water of Crystallization
2.6. Calculating the Formula of a Chemical Compound
2.7. From Empirical to Molecular Formulas
2.8. Equivalent Amounts of Substance and Masses
2.9. Gases and Pressure
2.10. Concentrations
2.11. Dilutions
2.12. Yield
2.13. Limiting Reactants
3. Chemical Bonding
3.1. How Ionic Compounds are Formed
3.2. Precipitations
3.3. Names and Formulas of Ionic Compounds
3.4. Ionic Bonds
3.5. Properties of Ionic Compounds
3.6. Metal Bonding
3.7. Covalent Bonds
3.8. Polar Covalent Bonding
3.9. Dipoles. Polar and non-polar Molecules
3.10. The VSEPR Theory
3.11. Hydrogen Bonding. The Peculiar Water
3.12. Equals Solves Equal
3.13. Solubility of Gases in Water
3.14. Solubility of Salts in Water
4. Thermochemistry
4.1. Endothermic and Exothermic Reactions. Enthalpy.
4.2. Heat Capacity
4.3. More on Enthalpy. Hess’ Law
4.4. More on Phase Transitions
4.5. Entropy. Gibbs’ Free Energy
5. Chemical Equilibrium
5.1. Reaction Rates
5.2. The Law of Mass Action
5.3. Calculations on Chemical Equilibrium
5.4. Heterogenous Equilibria. Solubility Product
5.5. Is the System at Equilibrium? The Reaction Quotient Q
5.6. Changing the Concentrations in a System in Equilibrium.
5.7. Diluting or Compressing Systems in Equilibrium, or Changing the Temperature
6. Acids and bases
6.1. Acids
6.2. Bases
6.3. pH and Dissociation Extent
6.4. The Acid Dissociation Constant, Ka
6.5. The Base Association Constant, Kb
6.6. The Ionic Product of Water, Kw
6.7. Protolysis of Ions
6.8. Neutralization
6.9. Buffers
7. Oxidation and Reduction
7.1. Metals are Reducing Agents
7.2. Halogens are Oxidizing Agents
7.3. Oxidation Numbers
7.4. Using Oxidation Numbers
8. Electrochemistry
8.1. Galvanic Cells
8.2. EMF (Electromotive Force)
8.3. Normal Potentials. The Hydrogen Electrode
8.4. Electrolysis
8.5. Corrosion
9. Organic Chemistry
9.1. Alkanes
9.2. Chain Isomers. Nomenclature
9.3. Haloalkanes
9.4. Nucleophilic Substitution
9.5. Alkenes
9.6. Electrophilic Addition. Markovnikov’s Rule
9.7. Elimination
9.8. Alkynes
9.9. Arenes and Aromatic Compounds
9.10. Alcohols
9.11. Oxidation of Alcohols
9.12. Aldehydes and Ketones
9.13. Thiols and Disulfides
9.14. Ethers
9.15. Amines
9.16. Nitro Compounds and Organic Nitrates
9.17. Carboxylic Acids
9.18. More on Carboxylic Acids
9.19. Stereoisomerism
9.20. Esters
9.21. Lipids
9.22. Mono-, Oligo-, and Polysaccharides
9.23. Amino Acids
9.24. Nucleotides
10. Biochemistry
10.1. Proteins
10.2. Enzymes
10.3. Catabolic Processes
10.4. Carrier Molecules
10.5. Glycolysis
10.6. Beta-oxidation
10.7. The Citric Acid Cycle
10.8. The Metabolism of Amino Acids
10.9. The Electron Transport Chain
10.10. Anabolic Processes
10.11. Gluconeogenesis and Fatty Acid Synthesis
10.12. DNA: Structure and Function
11. Analytical chemistry
11.1. Measurements, Accuracy, and Detection Levels
11.2. Spectrophotometry
11.3. Chromatography
About…
About Mr. Ehinger's Chemistry
Copyright
Cookie information
Mr. Ehinger's Biology
Search 🔍
9.16. Nitro Compounds and Organic Nitrates
Written by:
Magnus Ehinger
Last Updated: July 25, 2019
[Sorry, the video "Nitro compounds and organic nitrates" has not yet been published.]
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