Introduction to Kinetics & Equilibrium
Module 1: Introduction to Kinetics and Equilibrium
- Kinetics 1-POGIL
- Equilibrium 2-POGIL
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Please Download and print (or Save to your tablet) the following:
Quiz 1: Thursday Nov 30th
Objectives:
Kinetics1
Objectives:
Kinetics1
- Define rate of a reaction
- Define rate of a reaction based on the rate of the change of reactants and products' concentration over time
- Formulate a relationship between rate of a reaction and the rate of the change of reactants and products' concentration over time
- Solve problems based on the rate formula
- Define a reversible reaction
- Understand that a reaction at equilibrium does not mean equal concentration of reactants and products
- A reaction (system) is at equilibrium when the concentrations of reactants and products stop changing
- In a simple reaction where A changes to B: Rate of the conversion of B to A = Change in concentration of A per second
- rate of conversion of A to B / concentration of is a constant at any given time and the constant is called kA
- kA : specific rate constant for forward reaction
- kB : specific rate constant for reverse reaction
- rate of forward = kA [A]
- rate of reverse = KB [B]
- at equilibrium: rate forward = rate reverse or kA [A] = KB [B] which can be rearranged as kA/ kB = [B] / [A]
- Analyze and interpret Concentration-time and rate time graphs: Kinetics and equilibrium regions
Final Project- Essential Descriptive Inorganic Chemistry -M511
1- Download the Textbook
2- Choose an element
3- Open the following Dropbox Paper
4- Enhance the contents in the textbook (your chosen element) by adding videos, simulation, Diagram etc.
----Our Goal is to make a comprehensive guide that can be useful to you, me and future chemistry students.
------This Project is 10% of your semester 2 grade
Final Project- Essential Descriptive Inorganic Chemistry -M512
1- Download the Textbook
2- Choose an element
3- Open the following Dropbox Paper
4- Enhance the contents in the textbook (your chosen element) by adding videos, simulation, Diagram etc.
----Our Goal is to make a comprehensive guide that can be useful to you, me and future chemistry students.
------This Project is 10% of your semester 2 grade
Due Date: January 3rd 2018
Module 2- Equilibrium Calculations , collision theory a & Le Chatelier's Principle
Due Date: M511: 07/12/2017: 3 pm M512: 08/12/2017: 3 pm Instructions: 1- Please Download the Collision Theory Activity 2- Click on the simulation on the right 3- Unfortunately you have to run the simulation through Java but I'm sure you can follow the instructions (PHET installation Instructions: Pleas go to the following link https://phet.colorado.edu/en/help-center/running-sims) 4- After installation and running the simulations, please explore the simulation and follow the instruction in the Collison Theory handout and complete the tasks. 5- Please take snapshot of your work and attach them to the handout 6- Submit everything through the submit link at the top of this page 7- Name your file appropriately |
- The Solubility Product
- Unit Review problems
UNIT Test: Thursday December 21st
Review Problems:
****Kinetics
1- Rates of a reaction-Multiple Choice (Don't need to print and hand-in, Try to do as many questions as you can )
****Equilibrium & Solubility Product
1- Please download and print the above packets (ideally 1-sided)
2- answer the questions on the blank sided or separate A4-sheet of paper
3- Hand-in the packet on Thursday Dec 21st
Note: Please make sure you hand in all the reaction quotients, Le Ch-atelier's Principle and the solubility product hand-outs on Dec 21st ( answer to the exercises and problems in a separate sheet of paper)
Review Problems:
****Kinetics
1- Rates of a reaction-Multiple Choice (Don't need to print and hand-in, Try to do as many questions as you can )
****Equilibrium & Solubility Product
1- Please download and print the above packets (ideally 1-sided)
2- answer the questions on the blank sided or separate A4-sheet of paper
3- Hand-in the packet on Thursday Dec 21st
Note: Please make sure you hand in all the reaction quotients, Le Ch-atelier's Principle and the solubility product hand-outs on Dec 21st ( answer to the exercises and problems in a separate sheet of paper)