BRAZOSPORT COLLEGE LAKE JACKSON, TEXAS SYLLABUS CHEM 1412 - GENERAL CHEMISTRY II CATALOG DESCRIPTION: CHEM 1412 General Chemistry II. CIP 4005015203 A study of kinetics, equilibria, thermodynamics, electrochemistry, and organic chemistry. (4 SCH, 3 lecture, 3 lab) Prerequisite: A grade of C or better in CHEM 1411. Required skill level code: Reading, A; Writing, A; Math, A. Judy Chu Mickey McGaugh Kirby Lowery Gary Hicks Ken Tasa June 2010
BRAZOSPORT COLLEGE SYLLABUS CHEM 1412 General Chemistry II II COURSE EVALUATION Student Evaluation One hour exams are designed to measure the student's mastery of the course objectives. Homework assignments and fifteen-minute pop tests are designed to indicate whether or not the student is doing the assigned reading carefully. Laboratory exams, if any, are intended to measure the student's laboratory techniques, understanding of experiments done, and how the student can apply concepts covered in lecture to practical situations. The laboratory grade will be the average of the experiment grades and exam grades. The course grade will be determined from the following: Quizzes 60% Lab 20% Final 20% TOTAL 100% Each instructor will announce the exact percentages to be used at the beginning of the course. Instructor Evaluation A. Students will be given an opportunity to evaluate their instructor and the course content. B. Instructor will review and evaluate in terms of withdrawal rate. C. Final grades given will be reviewed in an effort to determine if a pattern of high or low grades exists. Department Evaluation A. Faculty and the Division Chair will review student s grade and withdrawal trends. B. Faculty and the Division Chair will review the Course, Competencies, and Perspectives Assessment 2
BRAZOSPORT COLLEGE SYLLABUS CHEM 1412 General Chemistry II III. Course Content Objectives The course is designed to help the student: A. Determine the rate of a chemical reaction, to write the rate law for any reaction given the rate and reagent concentrations, and to write the integrated rate law for first order reactions. B. Describe a chemical system at equilibrium and to calculate the effect of a given change in reaction conditions on the equilibrium concentrations. C. Determine whether or not a reaction will occur, and to calculate the heat flow in a reaction system, the maximum amount of useful work that can be done by a spontaneous reaction, and the equilibrium state at a given temperature. D. Determine the overall reaction in an electrochemical cell and the cell potential at the given reactant concentrations. E. Identify the family of an organic compound given its structure and to be able to name the compound and write a reaction typical of the compound. F. Gain a background sufficient to provide for success in more advanced courses in chemistry. G. Acquire the laboratory skills necessary to perform both quantitative and qualitative analyses in a laboratory setting 3
OUTLINE WEEK LECTURE CHEM 1412 - General Chemistry II Tentative Schedule LAB 1 Chapter 14 - Chemical Equilibrium TECH 380 - Safety & Check-In MISC 877 - Graphical Analysis Using Excel 2 Chapter 14 (cont.) 3 Chapter 14 (cont.) Exp. 616 -Introducing Chemical Equilibrium Chapter 13 - Chemical Kinetics 4 Chapter 13 (cont) Exp. 508 - Kinetics of a Chemical Reaction 5 Chapter 13 (cont.) Quiz 1 Exp. 508 - Kinetics of a Chemical Reaction (cont.) 6 Chapter 15 - Acids & Bases Exp. 356 - Gravimetric Sulfate 7 Chapter 15 -Acids & Bases Exp. 356 - Gravimetric Sulfate (cont.) 8 Chapter 16 - Acid-Base Equilibria & Solubility Equilibria 9 Chapter 16 - Acid-Base Equilibria & Solubility Equilibria Quiz 2 10 Chapter 18 - Thermodynamics Exp. 499 - ph of Acids, Salt, and Buffer Solutions Exp. 494 - ph Titration 11 Chapter 18-Thermodynamics Exp. 364 -Group I Qualitative 12 Chapter 19 - Electrochemistry Exp, 364 -Group I Qualitative (cont,) 13 Chapter 19 -Electrochemistry Exp. 450 - Electrochemistry 14 Chapter 24 - Organic Chemistry Exp. 439 - Synthesizing Aspirin 15 Chapter 24 - Organic Chemistry Quiz 3 16 Final Clean-up "This schedule is subject to change. Plus or minus 1-2 weeks The schedule will vary from semester to semester. The above schedule is based on a 16 week schedule where each week equates to 6 contact hours. In summer sessions the schedule will be adjusted to have more contact hours per week to accommodate the shorter semester. A. Chemical Kinetics 1. Determining the rate law 2. Integrated rate laws, 1st, 2nd and zero order 3. Collision and transition state theories 4. Catalysis B. Chemical Equilibrium 1. Law of chemical equilibrium 4
2. Equilibrium constants 3. Le Châtelier's principle 4. Heterogeneous equilibria 5. Catalysis 5
C. Ionic Equilibria 1. Weak acids and bases 2. Common ion effect 3. Kw, ph and poh 4. Acid-base indicators and titration curves 5. Buffers 6. Hydrolysis D. Solubility Equilibria 1. Solubility product constants 2. Precipitation 3. Supersaturation 4. Fractional precipitation 5. Dissolution E. Thermodynamics 1. Potential energy and disorder 2. First law of thermodynamics 3. State functions 4. PV work 5. Enthalpy 6. Hess' law 7. Free energy and reaction spontaneity 8. Entropy 9. Gibbs-Helmholtz equation 10. Second law of thermodynamics 11. Thermodynamic equilibrium constants 12. Third law of thermodynamics F. Electrochemistry 1. Conduction 2. Electrolytic cells a. anodic half-reactions b. cathodic half-reactions c. Faraday's law 3. Electrode potentials 4. Voltaic cells 5. Nernst equation 6. Relationship among G, E and Keq 7. Balancing redox equations a. equivalent weights b. normality G. Compounds of Carbon - Structure, Nomenclature and Basic Reactions 1. alkanes 2. alkenes 6
3. alkynes 4. cyclics 5. aromatics 6. alcohols 7. ethers 8. aldehydes 9. ketones 10. carboxylic acids 11. esters 12. amines 13. thiols LABORATORY OBJECTIVES YOU MUST MAKE AT LEAST A D IN THE LABORATORY PORTION OF THIS COURSE IN ORDER TO PASS THE COURSE. Given the proper laboratory equipment and reagents, the student will: A. Determine the percent sulfate in an unknown solid by gravimetric analysis. B. Determine the rate law of a reaction by investigating the rate of the reaction under different conditions. C. Perform titrations of a weak acid with a strong base and a strong acid with a strong base using a ph meter in order to construct a titration curve for each system. D. Determine relative size of reduction potentials by reacting various metals with aqueous ionic solutions, and construct batteries to measure voltaic cell potentials. E. Develop the chemistry of cation groups I, II, and III, and perform semi micro qualitative analyses on selected cations of these groups. F. Perform Laboratory experiments that demonstrate various aspects of dynamic equilibrium which include the effect of changes in the concentration of reactants, the concentration of products and temperature. G. Determine the rate law for a chemical reaction by determining the best fit to the concentration vs. time data using curve fitting techniques. H. Perform an organic synthesis of aspirin and compare the purity of their preparation with commercial aspirin tablets by the use of spectrophotometry and Beer s Law. I. Use a spreadsheet program to conduct computer based graphical analysis. 7
J. Demonstrate an understanding of basic chemical laboratory safety procedures. 8
EXEMPLARY EDUCATIONAL OBJECTIVES 1. Understand and apply method and appropriate technology to the study of natural science. 2. Recognize scientific and quantitative methods and the difference between these approaches and other methods of inquiry; and communicate findings, analyses and interpretations both orally and in writing. 3. Identify and recognize the differences among competing scientific theories. 4. Demonstrate knowledge of the major issues and problems facing modern science, including issues that touch upon ethics, values and public policies. 5. Demonstrate knowledge of the interdependence of science and technology and their influence on and contribution to modern culture. LAB EXPERIMENTS Numbers in brackets indicate the exemplary educational objective covered. 1. ANAL 356: Gravimetric Determination of Sulfate [1] [2] 2. ANAL 360: A colorimetric Determination of Aspirin in Commercial Preparations [1] [2] [4] [5] 3. ANAL 364: The Chemistry and Qualitative Analysis of Cations [1] [2] 4. TECH 380: Safety Practices in the Chemistry Laboratory [1] [2] [3] [4] [5] 5. TECH 430: Safety Precautions [1] [2] [3] [4] [5] 6. SYNT 439: Synthesizing Aspirin [1] [2] 7. ELEC 450: Studying Electrochemical Half-Cells and Half-Reactions [1] [2] 8. EQUL 494: Monitoring Acid-Base Titrations with a ph Meter [1] [2] 9. EQUL 499: Studying the ph of Strong Acid, Weak Acid, Salt, and Buffer Solutions [1] [2] 10. KINE 504: Determining the Rate Law for the Crystal Violet-Hydroxide Ion Reaction [1] [2] 11. EQUL 616: Introducing Chemical Equilibrium [1] [2] 12. MISC 877: Introduction to Computer-Based Graphical Analysis [1] [2] [5] 9
BRAZOSPORT COLLEGE SYLLABUS CHEM 1412 General Chemistry II IV. LEARNING OUTCOMES CHEM 1412 Objective Understand and apply method and appropriate technology to the study of natural science. Recognize scientific and quantitative methods and the difference between these approaches and other methods of inquiry; and communicate findings, analyses, and interpretations both orally and in writing. Identify and recognize the differences among competing scientific theories. Demonstrate knowledge of the major issues and problems facing modern science, including issues that touch upon ethics, values, and public policies. Demonstrate knowledge of the interdependence of science and technology and their influence on, and contribution to, modern culture. Method of Assessment Students success in the following lab exercise in which students will need to use a given procedure with proper technique and apply computer technology will be evaluated: ANAL 360: A Colormetric Determination of Aspirin in Comercial Preparations. Students success in the following lab exercise in which they will need to relate lab observations to LaChaterlier's principle and communicate these observations both orally and in writing will be evaluated: ANAL 616: Introducing Chemical Equilibrium. Students success on questions on a standardized final exam related to the difference in the Brǿnsted-Lowry and Arrhenius approach to acids and bases will be evaluated: Questions related to objective: 11, 12, & 13. Students success on questions on a standardized final exam related to acid rain will be evaluated: Questions related to objective: 14, 15, & 16. Students success in the following lab exercise in which they will need to use computer technology to perform the lab will be evaluated: MISC 877: Introduction to Computer-Based Graphical Analysis. 10
SCANS Competencies Intellectual Competencies INTELLECTUAL COMPETENCIES FOR THIS COURSE Method of Assessment Reading: Reading material at the college level means having the Students were required to read college level chemistry textbooks and ability to analyze and interpret a variety of printed materials books, laboratory manuals. Students success in the following laboratory articles, and documents. experiments where the students comprehension of the lab reading assignments was evaluated through the completion of the pre-lab assignment and through the successful completion of a pre-lab quiz, will be evaluated. Listening: Listening at the college level means the ability to analyze and interpret various forms of spoken communication. Critical Thinking: Critical thinking embraces methods for applying both qualitative and quantitative skills analytically and creatively to subject matter in order to evaluate arguments and to construct alternative strategies. Problem solving is one of the applications of critical thinking used to address an identified task. Students were required to listen to classroom lectures as well as other students in the classroom. Student s comprehension of the materials covered during the lectures was assessed through 3 exams or quizzes during the semester. Students develop critical thinking abilities during both the lecture and the laboratory. Experiments were designed that include both known and unknown samples (Exp. 364 Group I Qualitative Analysis). Critical thinking must be used to determine the identity, composition or other parameters of the unknown. Computer Literacy: Computer literacy at the college level means Students were required to use computers during the laboratory to plot data having the ability to use computer-based technology in and observe trends. Many of the experiments utilized a computer based communicating, solving problems, and acquiring information. Coreeducated students should have an understanding of the limits, laboratory experiments involving the use the computers and advanced experimental station (ChemBox). Students success in the following problems, and possibilities associated with the use of technology and technology will be evaluated: Exp. 877 Graphical Analysis using Excel, should have the tools necessary to evaluate and learn new Exp. 494 ph Titrations using the ChemBox, Exp. 360 Colorimetric technologies as they become available. Determination of Aspirin. Perspective Students also were required to complete web-based homework assignments (ChemSkillBuilder) for each chapter that was covered in the course syllabus. Their success in this endeavor will also be evaluated. PERSPECTIVES FOR THIS COURSE Method of Assessment 1. Technology and science: use and understanding Students success in the following laboratory experiments, where the students utilized information gained in the lecture to determine reaction rate constants, molecular mass, equilibrium concentrations and acid/base concentrations, will be evaluated. Exp. 616: Introducing Chemical Equilibrium. Exp. 508: Kinetics of a Chemical Reaction. Exp. 356: Gravimetric Determination of Sulfate. Exp. 499: ph of Acids, Salt, and Buffer Solutions. 2. Logical reasoning in problem solving Student s success in the following laboratory experiment where the students used the scientific method to gather and interpret data, and where dimensional analysis was used for problem solving, will be evaluated. 3 Integrate knowledge from and understand interrelationships of the scholarly disciplines Exp. 364: Group I Qualitative Analysis. Students success in the final exam, where the students integrated knowledge from inorganic chemistry, organic chemistry, mathematics and computer technology to demonstrate mastery of the material covered during the course of the semester, will be evaluated. 11
Brazosport College CHEM1412 - General Chemistry II Instructor: Dr. Kirby Lowery, Jr. Office Phone: 979-230-3530 Office: B-228A email:kirby.lowery@brazosport.edu COURSE DESCRIPTION This course is a continuation of General Chemistry I. Materials to be covered includes chemical kinetics and equilibria, thermodynamics, electrochemistry, and organic chemistry. To pass the course, the student must successfully complete the laboratory portion with a grade of D or better. Prerequisite: CHEM 1411 (final grade of C or better). PREREQUISITES Completion of Chem 1411 with a grade of C or better. COURSE GOALS The course is designed to help the student: A. Determine the rate of a chemical reaction, to write the rate law for any reaction given the rate and reagent concentrations, and to write the integrated rate law for first order reactions. B. Describe a chemical system at equilibrium and to calculate the effect of a given change in reaction conditions on the equilibrium concentrations. C. Determine whether or not a reaction will occur, and to calculate the heat flow in a reaction system, the maximum amount of useful work that can be done by a spontaneous reaction, and the equilibrium state at a given temperature. D. Determine the overall reaction in an electrochemical cell and the cell potential at the given reactant concentrations. E. Identify the family of an organic compound given its structure and to be able to name the compound and write a reaction typical of the compound. F. Gain a background sufficient to provide for success in more advanced courses in chemistry. G. Acquire the laboratory skills necessary to perform both quantitative and qualitative analyses in a laboratory setting as specified in section in. 12
TEXTBOOK OR COURSE MATERIAL INFORMATION Chang, R., Chemistry, 10 th Ed., (Bundle package w/chemskill Builder included) Published by McGraw Hill, 2010 CHEM 1412 Lab Manual, Brazosport College, Published by Cengage, Scientific Calculator. Safety Goggles - must meet ANSI Z87.1-1989 certification For Distance Education Courses: Contact the Brazosport College Bookstore, 500 College Drive, Lake Jackson, TX, 77566, Phone: 979-230-3651, Fax: 979-230-3653 with a credit card for these materials. LAB REQUIREMENTS Must pass the laboratory with a grade of 60 or better. STUDENTS WITH DISABILITIES Brazosport College is committed to providing equal education opportunities to every student. Brazosport College offers services for individuals with special needs and capabilities including counseling, tutoring, equipment, and software to assist students with special needs. Please contact the Special Populations Counselor, 979-230-3236, for further information. ACADEMIC HONESTY Brazosport College assumes that students eligible to perform on the college level are familiar with the ordinary rules governing proper conduct including academic honesty. The principle of academic honesty is that all work presented by you is yours alone. Academic dishonesty including, but not limited to, cheating, plagiarism, and collusion shall be treated appropriately. Please refer to the Brazosport College Student Guide for more information; this is available online at http://www.brazosport.edu. Click on the link found on the left side of the homepage. ATTENDANCE AND WITHDRAWAL POLICIES If you are unable to complete this course, you must withdraw by Friday, March 26, 2010. Withdrawal from a course is a formal procedure, which you must initiate; I cannot do it for you. If you stop attending class and do not withdraw, you will receive a performance grade, usually an "F". If you think you must withdraw from this course, please talk with me about it first. Being late for class is an extreme annoyance to the entire class. Be on time! Leaving class early is also an extreme annoyance to the entire class. 13
COURSE REQUIREMENTS AND GRADING POLICY Final Grades will be determined according to the following system: Total points possible: 100 90-100 =A 80-89 =B 70-79 =C 60-69 =D 0-59 = F Quizzes 60% Lab 20% Final 20% TESTING The examinations will last approximately one hour and fifteen minutes during class, with the exception of the final, which will last two hours. The exact date of each quiz will be announced in class closer to the actual date. There will be no make-up quizzes. ( See make-up policy) The materials to be covered on each exam are as follows: Exam Chapters 1 13, 14 2 15, 16 3 18, 19, 24 4 (Final) ChemSkill Builder Homework Assignments and all chapters covered in Exams 1-3 14
MAKE-UP POLICY There will be no make-up exams. However, if the student anticipates a legitimate absence (as judged by the instructor) for an exam, arrangements can be made to take the exam. This must be done before the next scheduled class after the exam. A missed exam will be counted as a zero toward the final grade.. STUDENT RESPONSIBILITIES Students are expected to fully participate in this course. The following criteria are intended to assist you in being successful in this course: a. understand the syllabus requirements b. use appropriate time management skills c. communicate with the instructor d. complete course work on time, and e. utilize online components (such as WebCT) as required. OTHER STUDENT SERVICES INFORMATION Information about the Library is available at www.brazosport.edu/sites/currentstudents/library/default.aspx or by calling 979-230-3310. Information about study skills and tutoring for math, reading, writing, biology, chemistry, and other subjects is available in the Learning Assistance Center (LAC), see www.brazosport.edu/sites/currentstudents/lac/default.aspx or call 979-230-3253. To contact the Physical Sciences & Process Technologies Division, call 979-230-3427. The Student Services provides assistance in the following: Counseling and Advising 979-230-3040 Financial Aid 979-230-3294 Student Activities 979-23 0-3355 To reach the Information Technology Department for computer, email, or other technical assistance call the Helpdesk at 979-230-3266.