❗The content presented here is sourced directly from Alison platform. For comprehensive course details, including enrollment information, simply click on the 'Go to class' link on our website.
Updated in [September 15th, 2023]
What does this course tell?
(Please note that the following overview content is from the original platform)
This course provides an in-depth understanding of the dynamics of various chemical reactions. Study how to calculate the rate of disappearance of reactants. It is important to understand the prediction of how a rate of a reaction can depend on the concentration of reactants. Before calculating the order of a chemical reaction, it is crucial to recognize the different factors that affect the reaction rate. This course takes you through examples of problems in the rate of reaction, their measurement, as well as the required procedures when the rate is given. It introduces you to the effect of surface area and concentration or pressure on reaction rate. Have you considered the impact of temperature and the influence of catalysts on reaction rate? This course shows you the different ways of determining the rate law or the order of the reaction, as well as how to use the concentration approach.
If you want to know how to calculate the appearance of products and the effect of surface area on reaction rate, then you should take this course. You will be able to explain the concepts of chemical equilibrium, and equilibrium in the physical process together with equilibrium in a constant expression. Also, this course will help you understand the representation of the equilibrium constant for reversible reactions and equilibrium shifts for gases. Do you know there are factors that affect equilibrium and the oxidation number of an element in a compound? The material also analyzes Le Chatelier’s principle, as well as the effect of concentration on equilibrium and equilibrium constant. It outlines the effect of changing the reactant and product concentration on the direction of the reaction. You will be able to explain how reduction-oxidation reactions and the set rules of the oxidation number can be assigned.
Furthermore, you will learn about the procedure for balancing redox reactions using the half-reaction or ion-electron. This course takes you through how to predict the spontaneity of redox reactions and the redox and electrode process of values. You will also be able to describe electrolysis, the electrolytic cell and the electrolysis of sodium chloride. Do you know there are special differences between electrolytic cells and voltaic cells? This course helps you understand the schematic of galvanic cells, how to write balanced nuclear equations and the products of nuclear reactions. Explore the properties of the different types of radioactive particles, the concept of half-life, the types of radioactivity and nuclear emissions. This course will be of great interest to students studying chemical kinetics, redox equations and nuclear reactions as well as those preparing for the AP (Advanced Placement) chemistry exams. Register now and start your next learning journey today!
We consider the value of this course from multiple aspects, and finally summarize it for you from three aspects: personal skills, career development, and further study:
(Kindly be aware that our content is optimized by AI tools while also undergoing moderation carefully from our editorial staff.)
What skills and knowledge will you acquire during this course?
By taking this course, the student will acquire knowledge and skills in chemical kinetics, redox equations, nuclear reactions, calculating the rate of disappearance of reactants, predicting the rate of a reaction, determining the order of a chemical reaction, the effect of surface area and concentration or pressure on reaction rate, the representation of the equilibrium constant for reversible reactions, the effect of changing the reactant and product concentration on the direction of the reaction, balancing redox reactions, predicting the spontaneity of redox reactions, the electrolytic cell and the electrolysis of sodium chloride, the schematic of galvanic cells, writing balanced nuclear equations, the products of nuclear reactions, the properties of the different types of radioactive particles, the concept of half-life, the types of radioactivity and nuclear emissions.
How does this course contribute to professional growth?
Taking the AP Chemistry: Chemical and Nuclear Reactions course can greatly contribute to one's professional growth. By gaining an in-depth understanding of the dynamics of various chemical reactions, individuals can enhance their knowledge and skills in this field.
The course covers topics such as calculating the rate of disappearance of reactants and understanding how the rate of a reaction can depend on the concentration of reactants. This knowledge is crucial for professionals working in industries that involve chemical reactions, such as pharmaceuticals, materials science, and environmental science. Being able to accurately predict and calculate reaction rates can help in optimizing processes and improving efficiency.
Additionally, the course explores factors that affect reaction rates, such as surface area, concentration, temperature, and catalysts. Understanding these factors can be valuable for professionals involved in research and development, as they can manipulate these variables to control and enhance reaction rates.
The course also delves into the concept of chemical equilibrium, including the representation of equilibrium constants and factors that affect equilibrium. This knowledge is essential for professionals working in fields such as chemical engineering, where maintaining equilibrium is crucial for designing and optimizing chemical processes.
Furthermore, the course covers topics related to redox reactions and nuclear reactions. These concepts are relevant in various industries, including energy production, nuclear medicine, and environmental monitoring. Understanding redox reactions and nuclear reactions can open up opportunities for professionals in these fields.
Overall, the AP Chemistry: Chemical and Nuclear Reactions course provides a comprehensive understanding of important concepts and principles in chemistry. By acquiring this knowledge, individuals can enhance their professional skills and broaden their career opportunities in industries that involve chemical reactions, equilibrium, and nuclear reactions.
Is this course suitable for preparing further education?
Yes, this course is suitable for preparing for further education. It provides an in-depth understanding of the dynamics of various chemical reactions, as well as the required procedures when the rate is given. It also introduces the effect of surface area and concentration or pressure on reaction rate, and the representation of the equilibrium constant for reversible reactions. Additionally, it covers the procedure for balancing redox reactions, the electrolytic cell and the electrolysis of sodium chloride, and the properties of the different types of radioactive particles. All of these topics are essential for students preparing for the AP (Advanced Placement) chemistry exams.
Course Syllabus
Chemical Kinetics
This module teaches you about the rate of a reaction and the rate law from demonstrations of the rate of a reaction. Learn about the different factors that affect the reaction rate and half-life of a reaction. Study the half-life of a reaction and rate law using concentration data.Concept of Equilibrium
This module teaches you about the equilibrium concept for a reversible reaction and Le Chatelier’s principle on gaseous chemical equilibrium. Study Le Chatelier’s principle to the solubility of solids in aqueous solutions and equilibrium constant expression when chemical reactions are added.Redox Reactions and Balancing Redox Equations
This module teaches you the concept of electrolysis of sodium chloride, galvanic cells, as well as the properties of the different types of radioactive particles. You will also learn about balanced nuclear equations and the products of nuclear reactions.Course assessment