Course Summary
This advanced chemistry course covers advanced topics in chemistry such as quantum mechanics, thermodynamics, and kinetics.Key Learning Points
- Gain a deeper understanding of advanced chemistry concepts
- Learn about the applications of advanced chemistry in industry and research
- Explore cutting-edge research in chemistry
Job Positions & Salaries of people who have taken this course might have
- USA: Median Salary: $75,000
- India: Median Salary: ₹508,000
- Spain: Median Salary: €30,000
- USA: Median Salary: $75,000
- India: Median Salary: ₹508,000
- Spain: Median Salary: €30,000
- USA: Median Salary: $80,000
- India: Median Salary: ₹599,000
- Spain: Median Salary: €28,000
- USA: Median Salary: $75,000
- India: Median Salary: ₹508,000
- Spain: Median Salary: €30,000
- USA: Median Salary: $80,000
- India: Median Salary: ₹599,000
- Spain: Median Salary: €28,000
- USA: Median Salary: $89,000
- India: Median Salary: ₹870,000
- Spain: Median Salary: €39,000
Related Topics for further study
Learning Outcomes
- Develop a deep understanding of advanced chemistry concepts
- Apply advanced chemistry concepts to real-world problems
- Explore cutting-edge research in chemistry
Prerequisites or good to have knowledge before taking this course
- Basic knowledge of chemistry
- Familiarity with calculus and physics
Course Difficulty Level
AdvancedCourse Format
- Online
- Self-paced
Similar Courses
- Introduction to Chemistry
- Organic Chemistry
- Physical Chemistry
Related Education Paths
Notable People in This Field
- Dr. Michelle Francl
- Dr. Neil Garg
Related Books
Description
A chemistry course to cover selected topics covered in advanced high school chemistry courses, correlating to the standard topics as established by the American Chemical Society.
Prerequisites: Students should have a background in basic chemistry including nomenclature, reactions, stoichiometry, molarity and thermochemistry.
Outline
- Kinetics
- 1.01 The Rate of Chemical Reactions
- 1.02 Comparing Rate of Change for Reactants and Products
- 1.02a Obtaining a Rate Law from Experimental Data Equations
- 1.03 The Rate Law
- 1.04 Obtaining a Rate Law from Experimental Data
- 1.04a Rate Law Calculations
- 1.05a Graphic 1st Order
- 1.06 First-Order Kinetics and the Half-Life
- 1.07 Second-Order Reactions
- 1.07a Graphics 2nd Order
- 1.08 Collision Theory
- 1.08a Activation Energy
- 1.09 The Arrhenius Equation
- 1.09a Graphic Activation Energy
- 1.10 Reaction Mechanisms
- 1.10a RDS Fast Equilibrium
- 1.10b Rate Determining Step
- 1.11 Catalysis
- Syllabus
- Kinetics Lecture Notes and Practice Problems
- Kinetics
- Chemical Equilibrium
- 2.01 Dynamic Equilibrium
- 2.02 Law of Mass Action
- 2.03 Law of Mass Action for Combined Reactions
- 2.04 Relationship Between Kc and Kp
- 2.04a Relationship Between Kc and Kp
- 2.05 Calculating the Equilibrium Constant
- 2.05a Finding Kc
- 2.06 Reaction Quotient
- 2.06a Predicting Reaction Progress with the Reaction Quotient
- 2.07 Calculating Equilibrium Concentrations
- 2.07a Finding Equilibrium Concentrations, part 1
- 2.07b Finding Equilibrium Concentrations, part 2
- 2.07c Finding Equilibrium Concentrations, part 3
- 2.08 Le Chatelier's Principle Part A
- 2.08a Le Chatelier's Principle Part B
- 2.08b How Changes Shift the Equilibrium
- Chemical Equilibrium Lecture Notes and Practice Problems
- Chemical Equilibrium
- Acid-Base Equilibria
- 3.01 Acids and Bases
- 3.02 pH and Kw
- 3.02a Finding Kw
- 3.03 Acid Strength
- 3.04 Finding pH
- 3.05 Strong and Weak Bases
- 3.05a Calculating equilibrium concentrations of a weak base, part 1
- 3.05b Calculating equilibrium concentrations of a weak base, part 2
- 3.06 Ions as Acids and Bases
- 3.06a Acid-base properties of aqueous salts, part 1
- 3.06b Acid-base properties of aqueous salts, part 2
- 3.06c Acid-base properties of aqueous salts, part 3
- 3.07 Types of Acids
- 3.08 Polyprotic Acids
- Acid-Base Equilibria Lecture Notes and Practice Problems
- Acid-Base Equilibrium
- Aqueous Equilibria
- 4.01 Buffers and the Common Ion Effect
- 4.02 pH of Buffer Solutions
- 4.02a Aqueous Equilibria Worked Example 1
- 4.03 Buffer Action
- 4.03a Aqueous Equilibria Worked Example 2
- 4.03b Aqueous Equilibria Worked Example 3
- 4.04 Buffer: Preparation and Capacity
- 4.05 Strong Acid - Strong Base Titration
- 4.06 Titrations Involving Either a Weak Acid or a Weak Base
- 4.06 Part 1 Aqueous Equilibria Worked Example
- 4.06 Part 1.a - Aqueous Equilibria Worked Example
- 4.06 Part 1.b - Aqueous Equilibria Worked Example
- 4.06 Part 1.c - Aqueous Equilibria Worked Example
- 4.06 Part 1.f Aqueous Equilibria Worked Example
- 4.06 Part 1.h Aqueous Equilibria Worked Example
- 4.06 Part 2.a Aqueous Equilibria Worked Example
- 4.06 Part 2.b Aqueous Equilibria Worked Example
- 4.07 Polyprotic Acid Titrations
- 4.08 Indicators
- 4.09 Solubility Equilibria
- 4.10 Molar Solubility and the Solubility Product
- 4.10.a Aqueous Equilibria Worked Example
- 4.11 Molar Solubility and the Common Ion Effect
- 4.11 2.b - Aqueous Equilibria Worked Example
- 4.11 2.c Aqueous Equilibria Worked Example
- 4.12 The Effect of pH on Solubility
- 4.12.b Aqueous Equilibria Worked Example
- 4.12c Aqueous Equilibria Worked Example
- 4.13 Precipitation Reaction and Selective Precipitation
- 4.13a Aqueous Equilibria Worked Example
- Aqueous Equilibria Lecture Notes and Practice Problems
- Aqueous Equilibria
- Thermodynamics
- 5.01 Review of Thermochemistry
- 5.01a Enthalpy of Reaction Refresher
- 5.02 Spontaneous vs. Nonspontaneous
- 5.10 Standard versus Nonstandard Free Energy Change
- 5.03 The Second Law of Thermodynamics
- 5.04 Entropy
- 5.05 Entropy of the Universe
- 5.06 Gibbs Free Energy
- 5.06a Gibbs Free Energy Example Problem 1
- 5.06b Gibbs Free Energy Example Problem 2
- 5.07 The Third Law of Thermodynamics
- 5.08 Calculating Standard Entropy Change
- 5.08a Thermodynamics Worked Example
- 5.09 Calculating Standard Free Energy Change
- 5.09a Thermodynamics Worked Example
- 5.09b Thermodynamics Worked Example
- 5.11 Comparing ∆G° and K
- 5.10a Thermodynamics Worked Example
- 5.10b Thermodynamics Worked Example
- 5.02a Spontaneous vs Nonspontaneous Example Problem
- Thermodynamics Lecture Notes and Practice Problems
- Thermodynamics
- Advanced Chemistry Final Assessment
Summary of User Reviews
Discover the secrets of Advanced Chemistry with this comprehensive online course. Students have rated this course highly for its in-depth coverage and engaging lectures. One key aspect that many users appreciated was the practical applications of the concepts taught.Pros from User Reviews
- In-depth coverage of advanced concepts
- Engaging and informative lectures
- Practical applications of concepts taught
- Great for students pursuing a career in chemistry
- Flexible learning options
Cons from User Reviews
- Requires a strong foundational knowledge of chemistry
- Some users found the course content to be too challenging
- Limited interaction with instructors
- Pricey compared to other online courses
- Not suitable for beginners
Dr. Allison Soult
4.7 Raiting
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