CHEM 1A03

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Course Overview

Grade Boosters

Lessons & Practice

I. Welcome

1. Unit 1 and 2: Fundamental Skills Review

4hr

1.1.1. SI Units

1.2.1. Naming Compounds11 min

1.2.2. Example3 min

1.2.3. Example1 min

1.2.5. Practice

1.3.1. Oxidation States7 min

1.3.2. Oxidation States - Additional Information5 min

1.3.3. Example3 min

1.3.4. Practice

1.3.5. Practice

1.4.1. Redox Reactions Theory8 min

1.4.2. Practice3 min

1.4.3. Practice49 sec

1.4.4. Practice

1.5.1. Significant Digits7 min

1.5.2. Example56 sec

1.6.1. Moles9 min

1.6.2. Example8 min

1.6.3. Practice5 min

1.6.4. Practice

1.7.1. Dimensional Analysis

1.8.1. Isotopes and Atomic Mass5 min

1.8.2. Example2 min

1.8.3. Practice6 min

1.8.4. Practice9 min

1.9.1. Solutions4 min

1.9.2. Cheatsheet

1.9.3. Practice

1.9.4. Practice

1.9.5. Practice7 min

1.10.1. Balancing Reactions3 min

1.10.2. Reaction Stoichiometry8 min

1.10.3. Example3 min

1.10.4. Polyatomic Ions 1 min

1.10.5. Example1 min

1.10.6. Practice4 min

1.11.1. Intro to Stoichiometry4 min

1.11.2. Stoichiometry: Putting it All Together6 min

1.11.3. Example5 min

1.11.4. Example6 min

1.11.5. Practice6 min

1.11.6. Practice7 min

1.12.1. Introduction to Limiting Reagents5 min

1.12.2. Example5 min

1.12.3. Example3 min

1.12.4. Example7 min

1.12.5. Practice3 min

1.13.1. Percent Yield 5 min

1.13.2. Example7 min

1.13.3. Practice5 min

1.13.4. Practice

1.14.1. The Ideal Gas Law5 min

1.14.2. Example2 min

1.14.3. Example7 min

1.14.4. Practice8 min

1.15.1. Applications of the Ideal Gas Law3 min

1.15.2. Standard Molar Volume 5 min

1.15.3. Example10 min

1.15.4. Practice4 min

1.15.5. Practice

1.15.6. Practice

1.16.1. Gas Mixtures & Partial Pressures6 min

1.16.2. Example2 min

1.16.3. Practice4 min

1.16.4. Practice

1.Q. Exam Questions & Practise10 Qns

2. Unit 3: Atomic Structure and Theory

5hr

2.1.1. Electromagnetic Spectrum2 min

2.1.2. Photon Equations5 min

2.1.3. Photon Equations (Cntd.)9 min

2.1.4. Example4 min

2.1.5. Example3 min

2.1.6. Practice1 min

2.1.7. Practice4 min

2.1.8. Wave-Particle Duality 8 min

2.1.9. Example1 min

2.1.10. Practice

2.1.11. Practice3 min

2.3.1. The Basics of Absorption and Emission Spectra3 min

2.3.2. Bohr's Atomic Model 12 min

2.3.3. Absorption vs Emission of a Photon3 min

2.3.4. Example4 min

2.3.5. Example3 min

2.3.6. Bohr Model Equations8 min

2.3.7. Example4 min

2.3.8. Example8 min

2.3.9. Practice 6 min

2.3.10. The Bohr Model and Atomic Line Spectra7 min

2.3.11. Relating Electronic Transitions to Emission Spectra8 min

2.3.12. Example4 min

2.3.13. Practice

2.3.14. Practice1 min

2.4.1. The Bohr Model Vs The Quantum Model6 min

2.Q. Exam Questions & Practise14 Qns

3. Unit 4: Periodic Table Trends

2.8hr

3.1.1. The Periodic Table of Elements9 min

3.1.2. Practice2 min

3.2.1. Effective Nuclear Charge 9 min

3.2.2. Example1 min

3.2.3. Practice2 min

3.3.1. Atomic Radius7 min

3.3.2. Atomic Radius Theory7 min

3.3.3. Example2 min

3.3.4. Example3 min

3.3.5. Practice1 min

3.4.1. Ionization Energy 5 min

3.4.2. Comparing 1st, 2nd, and 3rd Ionization Energies9 min

3.4.3. Practice2 min

3.4.4. Practice2 min

3.4.5. Practice5 min

3.5.1. Electron Affinity 10 min

3.5.2. Example2 min

3.5.3. Practice2 min

3.5.4. Practice4 min

3.6.1. Electronegativity 4 min

3.6.2. Example47 sec

3.6.3. Practice3 min

3.7.1. Periodic Trends Theory2 min

3.7.2. Example5 min

3.7.3. Practice4 min

3.7.4. Practice7 min

3.7.5. Practice2 min

3.8.1. Exceptions to Periodic Trends Introduction3 min

3.8.2. Exceptions to Periodic Trends Examples10 min

3.8.3. Exceptions to Periodic Trends Summary2 min

3.8.4. Example3 min

3.8.5. Practice4 min

3.9.1. Where does Hydrogen Belong?3 min

3.9.2. Alkali Metals (Group 1)2 min

3.9.3. Alkali Earth Metals (Group 2)2 min

3.9.4. Group 1 vs Group 22 min

3.9.5. Explaining the Appearance of Sodium

3.9.6. Rationalizing Reactivity

3.10.1. General Trends in p-block Bonding3 min

3.10.2. Group 135 min

3.10.3. Group 143 min

3.10.4. Group 155 min

3.10.5. Group 163 min

3.10.6. Group 174 min

3.10.7. Group 181 min

3.10.8. Practice: Element Hydrides

3.10.9. Practice: Halogen Acids

3.Q. Exam Questions & Practise9 Qns

4. Unit 5: Chemical Bonding

3hr

4.1.1. Introduction to Intramolecular Bonds4 min

4.1.2. Types of Intramolecular Bonds14 min

4.1.3. Example2 min

4.1.4. Example6 min

4.1.5. Practice2 min

4.1.6. Practice

4.2.1. Molecular Polarity 8 min

4.2.2. Example8 min

4.2.3. Practice

4.2.4. Practice3 min

4.2.5. Review of Polar Covalent Bonds

4.2.6. Properties of Covalent Bonds11 min

4.2.8. Practice4 min

4.3.1. Drawing Lewis Structures 17 min

4.3.2. Example11 min

4.3.3. Example7 min

4.3.4. Practice

4.3.5. Practice7 min

4.4.1. Resonance Structures Theory7 min

4.4.2. Equivalent Vs Non-Equivalent Resonance Structures5 min

4.4.3. Example7 min

4.4.4. Example13 min

4.4.5. Practice

4.4.6. Practice

4.5.1. VSEPR Theory20 min

4.5.2. Example10 min

4.5.3. Example6 min

4.5.4. Practice

4.5.5. Practice

4.5.6. VSEPR and Molecular Shapes Cheatsheet

4.6.1. Bond Energies4 min

4.6.2. Practice

4.6.3. Properties of Covalent Bonds11 min

4.6.5. Practice4 min

4.Q. Exam Questions & Practise14 Qns

5. Unit 6: Solubility and Chemical Equilibrium

3hr

5.1.1. Electrical Conductivity of Aqueous Solutions 4 min

5.2.1. Solubility Chart 8 min

5.2.2. Example5 min

5.2.3. Example5 min

5.2.4. Practice

5.3.1. Three Ways to Write Out Chemical Reactions11 min

5.3.2. Practice

5.3.3. Relating Net Ionic Equations to Ionization of Acids and Bases8 min

5.3.4. Introduction to Equilibrium 2 min

5.3.5. Understanding Equilibrium3 min

5.3.6. Equilibrium Constant (K)10 min

5.3.7. The Magnitude of the Equilibrium Constant, K8 min

5.3.8. Practice2 min

5.3.9. Practice4 min

5.3.10. Predicting Equilibria: The Reaction Quotient (Q) 6 min

5.3.11. Example4 min

5.3.12. Practice3 min

5.3.13. Practice

5.4.1. Le Chatelier's Priniciple14 min

5.4.2. Practice6 min

5.4.3. Practice

5.5.1. Intro to ICE Tables

5.5.2. Example 19 min

5.5.3. Example 29 min

5.5.4. Example 33 min

5.5.5. Example 49 min

5.5.6. Example 512 min

5.6.1. Solubility8 min

5.6.2. Example: Ksp

5.6.3. Practice: Calculating Molar Solubility2 min

5.6.4. Practice: Solubility8 min

5.6.5. Factors that Affect Solubility2 min

5.6.6. Practice: Ranking Solubility2 min

5.6.7. Common-ion Effect Introduction4 min

5.6.8. Common-ion Effect Problem 7 min

5.6.9. common-ion effect

5.6.10. Practice: Molar Solubility

5.7.1. Solubility Chart 5 min

5.7.2. Q vs K to Predict Solubility5 min

5.7.3. Example: Will A Precipitate Form?16 min

5.7.4. Practice: Solubility and Equilibrium3 min

5.Q. Exam Questions & Practise6 Qns

6. Unit 7: Acids and Bases

2.2hr

6.1.1. Definitions of Acids and Bases 10 min

6.2.1. Identifying Conjugate Acid and Base Pairs 7 min

6.2.2. Practice2 min

6.3.1. Autoionization of Water (Kw) 6 min

6.3.2. pH Scale 7 min

6.3.3. Example2 min

6.3.4. Example6 min

6.3.5. Practice

6.4.1. Acids and their Equations7 min

6.4.2. Practice4 min

6.4.3. Acids With Different Numbers of Protons5 min

6.4.4. Bases and their Equations6 min

6.4.6. Example21 min

6.4.7. Types of Acid or Base Reactions and pH Calculations Summary

6.5.1. Relationships Between the Strength of an Acid/Base and its Conjugate Base/Acid5 min

6.5.2. How to Tell the Stronger Acid by Looking at Conjugate Bases14 min

6.5.3. Acidity of Oxyacids4 min

6.5.4. Percent Ionization or Dissociation2 min

6.5.5. Example7 min

6.6.1. Acidic, Basic, and Neutral Salts 8 min

6.6.2. Salts (Cntd.)3 min

6.6.3. Example1 min

6.6.4. Example5 min

6.6.5. Practice

6.6.6. Salts Cheatsheet

6.7.1. Acid Base Equations Cheatsheet

6.7.2. Acid/Base Important Relationships Cheatsheet

6.Q. Exam Questions & Practise11 Qns

7. Unit 8: Thermodynamics

3hr

7.I. Chapter Intro1 min

7.1.1. Thermodynamics4 min

7.1.2. State Variables 3 min

7.1.3. Example: State Variables 2 min

7.1.4. Extensive vs Intensive Properties 2 min

7.1.5. Terminology5 min

7.2.1. Heat Capacity and Calorimetry13 min

7.2.2. Example7 min

7.2.3. Example6 min

7.2.4. Practice56 sec

7.2.5. Practice10 min

7.2.6. Example7 min

7.2.7. Practice

7.3.1. 0th Law of Thermodynamics 3 min

7.3.2. The 1st Law of Thermodynamics7 min

7.3.3. pV work4 min

7.3.4. Example: Work Heat and Internal Energy of an Ideal Gas5 min

7.3.5. Practice: pV Work1 min

7.3.6. Expansion Due to Chemical Reaction8 min

7.3.7. Practice: Work Done During Acid Digestion of Magnesium2 min

7.4.1. Heat, Work, and Internal Energy Continued 6 min

7.4.2. Practice: Summary For Exam!3 min

7.4.3. Enthalpy2 min

7.4.4. Energy Equations for Gases 9 min

7.4.5. deltaH and deltaU6 min

7.4.6. Practice: deltaH and q3 min

7.4.7. Exam Like Practice Problem 17 min

7.4.8. Monoatomic and Diatomic Ideal Gases 8 min

7.4.9. Exam Like Practice Problem #2

7.4.10. Exam Like Practice Problem #310 min

7.4.11. Exam-Like Practice Problem #4

7.4.12. Calorimetry12 min

7.4.13. Example: Monoatomic Gas Question4 min

7.4.14. Practice3 min

7.4.15. Practice

7.5.1. Enthalpy of Reaction2 min

7.5.2. Practice: Enthalpy 3 min

7.6.1. Hess’ Law5 min

7.6.2. Hess' Law Practice

7.6.3. Practice: Hess' Law1 min

7.7.1. Heats of Formation6 min

7.7.2. Practice: Enthalpy of Formation

7.7.3. Example: Heats of formation2 min

7.8.1. Bond Energies4 min

7.8.2. Example: Bond Energies

7.Q. Exam Questions & Practise16 Qns

8. Unit 9: Phase Transitions and Phase Diagrams

1hr

8.1.1. Phase Transitions7 min

8.1.2. Practice

8.2.1. Introduction to the Heat Curve15 min

8.2.2. Important Things to Know About the Heat Curve6 min

8.2.3. Example8 min

8.2.4. Practice

8.2.5. Practice

8.3.1. Phase Diagrams13 min

8.3.2. Extra Low Yield Information for Phase Diagrams4 min

8.3.3. Example4 min

8.3.4. Practice

8.3.5. Example5 min

8.3.6. Practice

8.Q. Exam Practise & Problems14 Qns

9. Unit 10: Entropy and Free Energy

42min

9.1.1. 2nd Law: Definition6 min

9.1.2. Factors Affecting Entropy Changes 10 min

9.1.3. Practice: Calculating Entropy Change of a Reaction

9.1.4. Example: Qualitatively Estimating Entropy Changes1 min

9.1.5. Entropy Calculations1 min

9.1.6. Practice: Entropy Calculations1 min

9.1.7. Practice: Entropy Calculations Type II4 min

9.2.1. Gibbs Free Energy and Spontaneity (w/o chemical potential)2 min

9.2.2. Spontaneity 7 min

9.2.3. Example: Spontaneity of a Reaction

9.2.4. Predicting Spontaneity Based off Entropy2 min

9.2.5. Chemical Equilibrium and ΔG Equations5 min

9.2.6. DeltaGo and K 3 min

9.2.7. Chemical Equilibrium and ΔG Practice

9.2.8. Chemical Equilibrium and ΔG Practice #2

9.2.9. Chemical Equilibrium and ΔG Practice #3

9.2.10. Van't Hoff Practice Problem

9.3.1. Summary of the Laws of Thermodynamics

9.Q. Exam Questions & Practise11 Qns

10. Unit 11: Electrochemistry

2.4hr

10.1.1. Oxidation States4 min

10.1.2. Oxidation States - Additional Information

10.1.3. Example: Oxidation State Practice 3 min

10.1.4. Practice: More Oxidation State5 min

10.2.1. Redox Reactions Theory6 min

10.2.2. Practice: Oxidation vs Reduction3 min

10.2.3. Practice: Oxidizing Agent vs Reducing Agent49 sec

10.2.4. Balancing Redox Reactions13 min

10.2.5. Practice: Balance the Redox Reaction

10.3.1. Reduction Potentials 10 min

10.3.2. How Potentials Relate to Spontaneity 7 min

10.3.3. Example: Electrochemical Cell Practice 4 min

10.3.4. Practice: Strongest Reducing Agent3 min

10.4.1. Galvanic/Voltaic Cells13 min

10.4.2. Practice: Galvanic Cells44 sec

10.4.3. Practice: Galvanic Cells 5 min

10.4.4. Example: Will A Reaction Occur? 10 min

10.4.5. Example: Electrochemistry2 min

10.4.6. Practice: Electrochemistry2 min

10.5.1. Cell Diagram 2 min

10.5.2. Practice: Cell Diagram For An Electrochemical Cell

10.5.3. Practice: Electrochemical Cells6 min

10.6.1. Cell Potential Equations 2 min

10.6.2. Example: Solving for Keq and deltaGo 5 min

10.6.3. Practice: Electrochemistry II3 min

10.6.4. Electrochemical Cells in Non-standard Conditions: Nernst Equation1 min

10.6.5. Example: Electrochemical Cell Practice with Equations11 min

10.6.6. Practice: Electrochemistry Equations

10.7.1. Electrolytic Cells7 min

10.7.2. Faraday's Law of Electrolysis 5 min

10.7.3. Summary of Galvanic Vs Electrolytic Cell

10.7.4. G, E, and K Summary

10.Q. Exam Questions & Practise9 Qns

11. Unit 12: Intermolecular Forces and Physical Properties

2.9hr

11.1.1. Intramolecular vs Intermolecular Forces5 min

11.1.2. Intermolecular Forces Theory15 min

11.1.3. Example

11.1.4. Example

11.1.5. Practice9 min

11.2.1. Types of Intermolecular Forces (more detailed version)9 min

11.2.2. Strength of Intermolecular Forces Cheatsheet

11.2.3. Example4 min

11.2.4. Example4 min

11.2.5. Practice

11.2.6. Practice

11.3.1. Phases of Matter3 min

11.3.2. Intermolecular Forces and Boiling Point11 min

11.3.3. Other Physical Properties and Intermolecular Forces6 min

11.3.4. Example9 min

11.3.5. Example4 min

11.3.6. Practice

11.3.7. Practice

11.3.8. Phase Transitions7 min

11.3.9. Practice

11.4.1. Viscosity 5 min

11.4.2. Surface Tension6 min

11.4.3. Capillary Action10 min

11.4.4. Example4 min

11.4.5. Example

11.4.6. Practice

11.4.7. Practice 8 min

11.5.1. Introduction to the Heat Curve15 min

11.5.2. Important Things to Know About the Heat Curve6 min

11.5.3. Example8 min

11.5.4. Practice

11.5.5. Practice

11.6.1. Phase Diagrams13 min

11.6.2. Extra Low Yield Information for Phase Diagrams4 min

11.6.3. Example4 min

11.6.4. Practice

11.6.5. Example5 min

11.6.6. Practice

11.Q. Exam Questions & Practise19 Qns

Mock Exams

ME.1. Mock Exam20 Qns

ME.2. Mock Exam20 Qns

ME.3. Term Test 2 - Mock Assessment55 Qns

ME.4. Final Exam - Mock Assessment30 Qns

ME.3 Term Test 2 - Mock Assessment

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