Chemistry Ii Bsp

CHEMISTRY II BSP

CHEM 502

Equilibrium and Thermochemistry

Syllabus for Summer 2007

Instructors: Robert Huie, Cara Karra, Jason Evans

TA: Pamela Bandini and Swathi Shivukula
E-mail:
Telephone: 617-287-6149
Office hours: before or after class
Office: RM Science 1-084

Dates: July 23-Aug 3
Class time: M-F 8:00-3:00 in Science 1-089

Objective: This course is a part of the core group of courses supporting the Boston Science Partnership initiative. This course focuses on energetics of chemical reactions and it is designed to support the professional development of high school teachers in the Boston community. The course provides graduate-level content while modeling sound pedagogy. Using current and future curriculum materials, as well as State and National standards for the teaching of chemistry at the high school level, this course offers an in-depth exploration of fundamental principles of equilibrium, solubility, acid-base reaction, electrochemistry, and thermodynamics.

Textbook: Chemistry, The Molecular Nature of Matter and Change, 4th Ed. by Silberberg

Supplementary Works:

Quantitative Chemical Analysis, 6th Ed. Harris

Fundamentals of Analytical Chemistry, 7th Ed. Skoog, West, Holler

Principles of Instrumental Analysis, 6th Ed. Skoog, Holler, Crouch

Chemical Principles The Quest for Insight 4th Ed. Atkins and Jones

Science Curriculum Topics Study Bridging the Gap Between Standards and Practice,

Keeley

How People Learn, Brain, Mind, Experience, and School, National Research Concil

Living by Chemistry; Alchemy, Smells, Weather, Fire, Toxins, Angela Stacy

Grading:

Pretest

Taken on first day, 0 pts

Lab Work

Six Laboratory Exercises, 5 pts each

Homework

Six Homework Assignments, 5 pts each

Presentation:

10 pts

Final Exam

Absolute score, 25 pts

Improvement over pre-test, 5 pts

Grading Scale:

You must accumulate 80 points to earn a B and 90 points to earn an A.

Attendance: You are expected to attend the ten days of class in their entirety. This is a 2-week course. As a result, no opportunity to make-up any course work will be provided. If you miss substantial segments (over 1 hr) on more than one day without prior approval, you will be given a failing grade for the course.

Academic dishonesty: If there is any question in your mind about whether or not the action you are about to undertake constitutes cheating, IT DOES, and DO NOT PROCEED!! If you do proceed you will likely be caught and you will FAIL the course and be DISMISSED from the university!

Homework:

You will be given nightly problem sets out of the book that will be collected and graded the next day of class.

Lecture Schedule:

An example of a typical day

Morning:

Go over homework problems

Introduction of daily topic

Classroom demo

Lecture

Problem solving session

Classroom demo

Introduction to daily laboratory exercise

Lunch:

Afternoon:

Laboratory exercise

Data Analysis

Completing Laboratory report

Problem solving sessions

day / Notes and Suggested Problems / Chapter
1 / Pre-test
1 / Material: Course overview, Classification of reactions, Stoichiometry, Energetics of Reactions, Calorimetry / 3, 6, 4
1 / Lab Work, Experiment 1: Investigating Reaction Stoichiometry via Calorimetry
1 / Assign Problem set 1, ch 3:15, 38, 54, 78, 82; ch 6:36, 64, 78; ch 4:32, 46, 92
2 / Go over problem set 1,
2 / Equilibrium, equilibrium constant, Le Chatelier’s principle Lab work; / 17
2 / Assign Problem set 2, ch 17: 28, 36, 50, 64, 72, 66
3 / Go over problem set 2,
3 / Solubility, Solubility product constants, Qsp and Ksp, Common Ion Effect, Complex Ion, Solving Problems involving Complex Equilibra , Ionic Strength / 19.4-19.12
3 / Experiment 2: Solubility of CaSO4
3 / Assign problem set 3, ch 19:71, 81, 87, 97, 99
4 / Go over problem set 3
4 / acid-base chemistry, pH, weak acid/base equilibrium, buffers / 18
4 / Assign problem set 4, ch 18: 16, 28, 26, 66, 70, 95, 122
5 / Go over problem set 4, / 19:1-19:3
5 / Mid-point review
5 / Lab work; Experiment 3: Spectrometric Determination of the Acid Dissociation Constant of an Acid-base Indicator
6 / Titrations, polyprotic systems
6 / Lab work; Experiment 4: Titration of a mystery weak acid or base
6 / Assign problem set 5, ch 19; 16, 28, 57, 59 + supplemental problems
7 / Go over problem set 5
7 / Redox reactions, half-reactions, Nernst Equation Electrocemical cells, reference electrodes / 21
8 / Lab work; Experiment 5: Determining Relative Standard Reduction Potentials of Various Metals
8 / indictor electrodes, ion-sensitive electrodes, Redox titarations / 21
8 / Assign Problem set 6, ch 21; 11, 15, 28, 47, 67, 71
9 / Go over problem set 6 / 20
9 / Thermochemistry, DG, DH, DS, DG0, Hess’s Law, Laws of thermodynamics, Free Energy, Equilibrium and predicting the direction of a reaction; Review and Reflect on the course material
9 / Assign problem set 7; ch 20; 27, 34, 57, 71, 88
Work in small groups on various problem sets, lab data, or advanced materials in preparation for the exam
9 / Lab Exercise 6; Does entropy or enthalpy drive the reaction?
9 / Go over Problem set 7
9 / Review for exam
10 / Review for exam
10 / Exam / 3, 4, 6, 17, 18, 19, 20, 21
10 / 15 minute presentations
10 / Course Evaluation

Presentations: You will present have 15 minutes to present a lesson that you feel works really well for you in class. It can be on any science topic. Choose a topic that is challenging, but yet one that you have developed a unique approach to that works well in your classroom. The goal is to share your approach towards teaching a generally difficult topic with you classmates and instructors.