Study Time: You should plan to spend about 2 hours studying for each hour of class lecture.

Size: px
Start display at page:

Download "Study Time: You should plan to spend about 2 hours studying for each hour of class lecture."

Transcription

1 Mercyhurst College Organic Chemistry I ( Sec.1) Winter Term 2013 Chemistry 240 Dr. J. Williams (ex. 2386, 309 Zurn) Department of Chemistry and Biochemistry Lecture: MWF 2:40-4:10 PM 313 Zurn Required Material: Organic Chemistry with Biological Applications: John McMurry, Thomson, Brooks/Cole Virtual Textbook of Organic Chemistry Description: Organic Chemistry I is an introduction to the theories and principles of the chemistry of carbon compounds. The student will develop an understanding of organic chemistry, which will be useful in the studies of chemistry and related fields such as biochemistry, medicine, forensics, engineering and pharmacy. Homework: Homework will be assigned regularly. The homework problems will not be graded nor collected. Selected homework problems will be reviewed in class. Study Time: You should plan to spend about 2 hours studying for each hour of class lecture. Web Site: I have provided a link to an excellent web site filled with practice problems and additional help on Chapter material. In addition your textbook has a website for Organic Chemistry. Since exam questions may mirror website content, I suggest that you spend some quality time at these web sites. Course Objectives: (Time may prevent the coverage of all of these objectives) Upon successful completion of this course the student should be able to: 1. Describe the structure of molecules through the application of chemical bonding theories. 2. Predict properties of organic molecules on the basis of molecular structure. 3. Analyze organic reactions in terms of physical organic principles. 4. Use the IUPAC system of nomenclature and parts of the common naming system. 5. Describe the structure and reactions of alkanes and cycloalkanes. 6. Interpret selected chemical reactions using appropriate mechanisms. 7. Demonstrate an understanding of stereochemistry. 8. Describe the structure and reactions of alkyl halides. 9. Apply general chemical principles to analyze aliphatic substitution and elimination reactions. 10. Describe the structure, synthesis and reactions of alkenes. 11. Describe the structure, synthesis and reactions of alkynes. 12. Descrobe the strucuire, synthesis and reactions of alcohols. 13. Identify unknown structures with the use of infrared spectra and other data. 14. Demonstrate critical thinking skills pertaining to the analysis of organic reactions.

2 Caveats: Computer Literacy Expectations: Students will need basic word processing and Internet searching skills for the completion of some papers, exercises and projects. Content Outline & Competencies: (Time may prevent the coverage of all of these objectives) I. Molecular Structure and Chemical Bonding Theories A. Draw Lewis electron dot structures for molecules. B. Draw resonance forms for a molecule having delocalized bonding. C. Determine the relative stability of resonance forms using formal charges. D. Apply the VSEPR model to describe molecular geometry and shape. E. Draw a three-dimensional representation of a given molecule. F. Discuss the formation of a covalent bond. G. Identify bonds as covalent or ionic. H. Describe the electronic structure of molecules using valence bond theory. I. Predict the hybridization state of atoms in a molecule. II. Structure and Properties of Organic Molecules A. Predict whether a molecule has a net dipole moment. B. Identify the type(s) of intermolecular forces which operate between molecules. C. Predict general trends in boiling points and solubilities based on intermolecular forces. D. Predict relative acidities and basicities based on structure, bonding and resonance forms of conjugate acid-base pairs. E. Predict the direction of Brönsted-Lowry acid-base reactions. F. Identify Lewis acids and bases. G. Identify by name the following type of compounds (given a condensed structural formula): alkanes, alkenes, alkynes, aromatic hydrocarbons, alkyl halides, alcohols, ethers, aldehydes, ketones, carboxylic acids, esters, amides, amines and phenols. H. Draw condensed structural formulas for the following types of compounds: alkanes, alkenes, alkynes, aromatic hydrocarbons, alkyl halides, alcohols, ethers, aldehydes, ketones, carboxylic acids, esters, amides, amines and phenols. III. Nomenclature A. Given the structure, provide correct IUPAC names for alkanes, cycloalkanes, alkenes, alkynes, dienes and alkyl halides. B. Given the name, draw correct condensed structural formulas for alkanes, cycloalkanes, alkenes, alkynes, dienes and alkyl halides. C. Draw and use common names for all 3- and 4-carbon alkyl groups. IV. Structure and Stereocemistry of Alkanes and Cycloalkanes A. Name and draw structures for alkanes and cycloalkanes by the IUPAC system. B. Identify carbon and hydrogen as being primary, secondary or tertiary. C. Draw all possible isomers given the molecular formula. D. Draw Newman projections for different conformations and predict relative stability. E. Discuss the applicability of Bayer strain theory to the stabilities of cycloalkanes. F. Compare and contrast the terms ring and angle strain. G. Draw structures for both boat and chair cyclohexane. H. Distinguish (by drawing) the difference between axial and equatorial positions in cyclohexane. I. Recognize cis and trans isomers of disubstituted cyclohexanes. J. Predict the stability of substituted cyclohexanes by estimating steric interactions.

3 K. Draw and explain the radical mechanism for the halogenation of alkanes. L. Explain the relationship of the structure of free radicals to stability. V. The Study of Chemical Reactions. A. Classify organic reactions as addition, elimination, substitution or rearrangement. B. Distinguish between polar and radical mechanisms. C. Identify reagents as electrophiles and nucleophiles. D. Apply thermodynamic concepts to the analysis of organic chemical reactions. E. Calculate the enthalpy change for a reaction from a table of bond energies. F. Relate the equilibrium constant for a chemical reaction to the standard free energy change for that reaction. G. Apply qualitative ideas from transition state theory to the analysis of organic chemical reactions. H. Draw and interpret an energy diagram for a chemical reaction. I. Discuss the meaning of the term activation energy. VI. Stereochemistry A. Recognize the difference between constitutional isomers and stereoisomers. B. Determine if an object or molecule is chiral. C. Apply the RS system of nomenclature to stereoisomers. D. Compare and contrast, using examples if necessary, the following terms: enantiomers, diasteromers and meso compounds. E. Draw Fischer projections of chiral compounds. F. Explain the difference between relative and absolute configurations. G. Predict the theoretical number of stereoisomers. H. Predict the stereochemical outcome of selected reactions. VII. Alkyl Halides: Nucleophilic Substitution and Elmination A. Name and draw structures for alkyl halides by the IUPAC system. B. Show by reaction the preparation of alkyl halides. C. Predict the products of reactions of alkyl halides. D. Discuss the kinetics involved with nucleophilic substitution reactions. E. Classify reactions as SN1, SN2, E1 or E2. F. List a set of ideal conditions for SN1, SN2, E1 or E2 reactions. G. Discuss the factors that can influence the rates of SN1, SN2, E1 or E2 reactions. H. Predict the products of SN1, SN2, E1 or E2 reactions. I. Explain the limitations placed upon elimination reactions that involve the cyclohexane ring. VIII. Alkenes, Alkynes A. Name and draw structures for alkenes and alkynes by the IUPAC system. B. Determine the degrees of unsaturation of an organic compound from its molecular formula. C. Discuss the bonding and electronic structure of alkenes. D. Draw and name cis-trans isomers of alkenes. E. Apply the sequence rules to classify alkenes as E or Z isomers. F. Use heats of hydrogenation to determine the relative stability of alkenes. G. Show by reaction the preparation of alkenes, alkynes and conjugated dienes. H. Predict the products of reactions of alkenes, alkynes and conjugated dienes. I. Discuss the bonding and electronic structure of alkynes. J. Compare and contrast the reactions of alkenes and alkynes. K. Explain why the terminal hydrogen in terminal alkynes is acidic. L. Explain the unusual stability of conjugated dienes.

4 X. Mechanisms A. Draw and discuss each step of the mechanism of an alkene addition reaction. B. Explain the relationship of carbocation structure to stability. C. Recognize when carbocation rearrangement is likely to occur. D. Apply the Hammond postulate to the analysis of a reaction mechanism. E. Draw and explain the mechanism for a SN1, SN2, E1 or E2 reaction. XI. Spectral Interpretation A. Identify functional groups by their infrared absorptions. B. Correlate the infrared spectrum of a known organic compound to its structure. C. Propose a structure for an unknown consistent with its infrared spectrum and other data such as the molecular formula. XII. Critical Thinking A. Devise a reasonable synthetic pathway for producing a desired compound from a specific starting material. B. Propose a reaction mechanism to explain the outcome of a reaction you have never seen before. C. Determine the structure of an unsaturated compound from its molecular formula and its cleavage and/or hydrogenation products. Methods of Evaluation of Competencies: Evaluation of student mastery of course competencies will be accomplished using the following methods: All exams will be taken in class: Exams 200 pts. (These are not % - If you receive 115% on an exam due to a curve you will only receive 100 pts. for the exam!) Final Exam 100 pts. Bonus Points 4% Class Attendance and assigned problems Grading Scale: A = 93% 100% B+ = 89% 92.9%: B = 80% %: C+ = %: C = 70% %: D+ = 65% %: D = 60% 64.9%: F = %: Class Attendance: I will take attendance for about ten to twenty classes, so each class is worth between 0.20% and 0.10% You must be present in class to receive points. Notice: Bonus Points This is a % in that they are added to your total %. For example: A student attends all classes for a total of 4% Bonus. If the total from exams for this student where 87% the course grade would be calculated as 87% + 4% = 91%. So the final grade would be a B+. With no bonus points the grade would have been a B. Notes: 1. Missed exams count ZERO points, NO make-up exams. 2. If you have a question about your final grade you should see me as soon as possible. Exams and records are only kept for a period of 3 weeks after final grades are distributed. 3. All exams are Cumulative but will stress material covered since the last exam.

5 4. This course has a corequisite of Organic Chemistry I Laboratory. If you are NOT taking the laboratory it is your responsibility to obtain any relevant material from laboratory texts as referenced in the class lectures. Exams may cover material taken from laboratory experiments. This course has a prerequisite of General Chemistry II. You should not be in this course if you have not successfully completed General Chemistry II. 5. The lecture time for this course is 2:00 to 3:20 pm. i.e. one hour and 20 minutes. Depending on class size some of the time may be used for question/answer time. 6. If you are a student with a disability, and if you will be requesting accommodations, it is your responsibility to contact the Director of the Learning Differences Program. The Learning Differences Office will recommend any appropriate accommodations to your professor and his/her director. The professor and director will identify for you which accommodations will be arranged. Mercyhurst College provides a range of services to allow persons with disabilities to participate in educational programs and activities. If you desire support services contact the office of Learning Differences (814) The Learning Differences Office is located in room 314 Main. Questions Most Commonly Asked In or Outside of Class: What will the next exam cover? Exams cover all material covered in prior exams but stress the material from the last exam. Since this course follows General Chem I and II you are responsible for material covered in these courses but only as it relates to Organic Chemistry. Asking a question such as Is Chlorine a metal or a nonmetal? will only cause Dr. Williams to lose more hair from what little he already has! Questions on the exams will be taken from material discussed in lecture or from the assigned homework problems. Concepts discussed in your text which are NOT discussed in class will NOT be included on an exam. I missed the last class what did you cover?.if you miss a lecture it is your responsibility to get the notes from other students in the class. I will have to miss the next class.what will you cover?..consult the syllabus I may cover the topic mentioned, I may review problems, I may cover another topic if I feel it is appropriate best not to miss the class. I don t understand this could you help me? Organic Chemistry teaches you to think for yourself. I am always willing to help a student with a difficult concept but I will be asking you questions to see if you have studied the material first! A necessary condition for help outside the classroom is attendance of ALL lectures! I came late for this exam could I have more time? Exams start at the beginning of class and last for one class period. The later you come to class, the less time you will have to finish the exam. (In class question) Could you go over that concept again?.no problem. I am always happy to cover the concept again and again until you understand it! I have to miss the next exam, can I take a makeup exam?.. The best advice I can give you is NEVER NEVER miss an exam. When you request a makeup exam for whatever reason you should be aware of the following.

6 a. Makeup exams may be all essay type, all multiple choice or a mixture of both. i.e. reactions and synthesis in addition to multiple choice. This must be an entirely different exam, in fairness to the other students, because you will have had more time to study. b. This will be a more difficult exam, in fairness to the other students, because you may have seen the prior exam or heard discussion about the exam after it was given. c. This exam will not be curved even though the regular exam may be curved. How can one calculate a class average for one student? d. The exam will cover all material up to this exam. I.e. if you take this exam a week after the regular exam it will cover material through that week. Office Hours TBA Tentative Lecture Outline DATE TOPIC TEXT CHAPTER NOVEMBER 26,28,30 Introduction to Organic Chemistry Chapters 1,2 Functional Groups Chapter 3 DECEMBER 3,5,7 Organic Nomenclature Chapter 3 Organic Compounds: Alkanes and Cycloalkanes Chapters 3,4 10,12,14 Stereochemistry of Alkanes and Cycloalkanes Chapter 4 17,19,21 An Overview of Organic Reactions Chapter 5 JAUNUARY 7*,9,11 Alkenes : Structure and Reactivity Chapter 6 14,16,18 Alkenes : Reactions and Synthesis Chapter 7 Alkynes Chapter 8 (21**),23,25 Stereochemistry Chapter 9 28,30, Feb. 1 Alkyl Halides Chapter 10 FEBRUARY 4,6,8* Reactions of Alkyl halides Chapter 11 11,13, Sturcture Determination: MS and IR Chapter 12 Structure Determination NMR Chapter 13 Final Exam See Final Exam Schedule * Exams ** Martin Luther King Day Observed - No Class

Spring Term 2012 Dr. Williams (309 Zurn, ex 2386)

Spring Term 2012 Dr. Williams (309 Zurn, ex 2386) Chemistry 242 Organic Chemistry II Spring Term 2012 Dr. Williams (309 Zurn, ex 2386) Web Page: http://math.mercyhurst.edu/~jwilliams/ jwilliams@mercyhurst.edu (or just visit Department web site and look

More information

CHEM 261 HOME WORK Lecture Topics: MODULE 1: The Basics: Bonding and Molecular Structure Text Sections (N0 1.9, 9-11) Homework: Chapter 1:

CHEM 261 HOME WORK Lecture Topics: MODULE 1: The Basics: Bonding and Molecular Structure Text Sections (N0 1.9, 9-11) Homework: Chapter 1: CHEM 261 HOME WORK Lecture Topics: MODULE 1: The Basics: Bonding and Molecular Structure Atomic Structure - Valence Electrons Chemical Bonds: The Octet Rule - Ionic bond - Covalent bond How to write Lewis

More information

JEFFERSON COLLEGE COURSE SYLLABUS CHM200 ORGANIC CHEMISTRY I. 5 Credit Hours. Prepared by: Richard A. Pierce

JEFFERSON COLLEGE COURSE SYLLABUS CHM200 ORGANIC CHEMISTRY I. 5 Credit Hours. Prepared by: Richard A. Pierce JEFFERSON COLLEGE COURSE SYLLABUS CHM200 ORGANIC CHEMISTRY I 5 Credit Hours Prepared by: Richard A. Pierce Revised Date: January 2008 by Ryan H. Groeneman Arts & Science Education Dr. Mindy Selsor, Dean

More information

Syllabus for CHEM 241 Organic Chemistry I, 3CR, Great Basin College

Syllabus for CHEM 241 Organic Chemistry I, 3CR, Great Basin College Syllabus for CHEM 241 Organic Chemistry I, 3CR, Great Basin College Instructor: David Freistroffer Office: Lundberg 109 (in the fishbowl) Phone: 753-2018, but please use email for fastest possible response

More information

Detailed Course Content

Detailed Course Content Detailed Course Content Chapter 1: Carbon Compounds and Chemical Bonds The Structural Theory of Organic Chemistry 4 Chemical Bonds: The Octet Rule 6 Lewis Structures 8 Formal Charge 11 Resonance 14 Quantum

More information

JEFFERSON COLLEGE COURSE SYLLABUS CHM200 ORGANIC CHEMISTRY I. 5 Credit Hours. Prepared by: Richard A. Pierce. Revised by: Sean Birke October, 2013

JEFFERSON COLLEGE COURSE SYLLABUS CHM200 ORGANIC CHEMISTRY I. 5 Credit Hours. Prepared by: Richard A. Pierce. Revised by: Sean Birke October, 2013 JEFFERSON COLLEGE COURSE SYLLABUS CHM200 ORGANIC CHEMISTRY I 5 Credit Hours Prepared by: Richard A. Pierce Revised by: Sean Birke October, 2013 Ms. Linda Abernathy, Math, Science & Business Division Chair

More information

CHM 235 GENERAL ORGANIC CHEMISTRY I

CHM 235 GENERAL ORGANIC CHEMISTRY I CHM 235 GENERAL ORGANIC CHEMISTRY I PRESENTED AND APPROVED: AUGUST 9, 2012 EFFECTIVE: FALL 2013-14 Prefix & Number CHM 235 Course Title: General Organic Chemistry I Purpose of this submission: New Change/Updated

More information

COURSE UNIT DESCRIPTION. Type of the course unit. Mode of delivery Period of delivery Language of instruction Face to face Autumn English

COURSE UNIT DESCRIPTION. Type of the course unit. Mode of delivery Period of delivery Language of instruction Face to face Autumn English Course unit title Organic Chemistry I Lecturer(s) Dr. Rimantas Vaitkus COURSE UNIT DESCRIPTION Department Dept. Organic Chemistry, Vilnius University Cycle First Type of the course unit Mode of delivery

More information

EASTERN ARIZONA COLLEGE General Organic Chemistry I

EASTERN ARIZONA COLLEGE General Organic Chemistry I EASTERN ARIZONA COLLEGE General Organic Chemistry I Course Design 2015-2016 Course Information Division Science Course Number CHM 235 (SUN# CHM 2235) Title General Organic Chemistry I Credits 4 Developed

More information

CHEM2077 HONORS ORGANIC CHEMISTRY SYLLABUS

CHEM2077 HONORS ORGANIC CHEMISTRY SYLLABUS CHEM2077 HONORS ORGANIC CHEMISTRY SYLLABUS 1. STRUCTURE AND BONDING a] Atomic structure and bonding b] Hybridization and MO Theory c] Drawing chemical structures 2. POLAR COVALENT BONDS: ACIDS AND BASES

More information

Course Syllabus. Department: Science & Technology. Date: April I. Course Prefix and Number: CHM 211. Course Name: Organic Chemistry I

Course Syllabus. Department: Science & Technology. Date: April I. Course Prefix and Number: CHM 211. Course Name: Organic Chemistry I Department: Science & Technology Date: April 2012 I. Course Prefix and Number: CHM 211 Course Name: Organic Chemistry I Course Syllabus Credit Hours and Contact Hours: 5 credit hours and 7 (3:3:1) contact

More information

DEPARTMENT: Chemistry

DEPARTMENT: Chemistry CODE: CHEM 203 TITLE: Organic Chemistry I INSTITUTE: STEM DEPARTMENT: Chemistry COURSE DESCRIPTION: Students will apply many concepts from general chemistry to a study of organic chemistry. They will be

More information

Course Syllabus : First semester, 2017/2018. Course code: Credit hours: 3 hours. Office Number. Office Hours

Course Syllabus : First semester, 2017/2018. Course code: Credit hours: 3 hours. Office Number. Office Hours Philadelphia University Faculty of pharmacy Department of pharmaceutical science Course Syllabus : First semester, 17/18 Course Title: Pharmaceutical Organic Chemistry (I) Course Level: 1 st year Lecture

More information

DEPARTMENT: Chemistry

DEPARTMENT: Chemistry CODE CHEM 204 TITLE: Organic Chemistry II INSTITUTE: STEM DEPARTMENT: Chemistry COURSE DESCRIPTION: A continuation of CHEM-203, students will extend their studies into topics including aromatic hydrocarbons,

More information

Chemistry 330 Fall 2015 Organic Chemistry I

Chemistry 330 Fall 2015 Organic Chemistry I Chemistry 330 Fall 2015 Organic Chemistry I Instructor: John G. Kodet Contact Information: Office: Faraday Hall 335 Email: jkodet@niu.edu Office Hours: MW 2:00-3:00 pm, and by appointment Lecture: MWF

More information

COWLEY COLLEGE & Area Vocational Technical School

COWLEY COLLEGE & Area Vocational Technical School COWLEY COLLEGE & Area Vocational Technical School COURSE PROCEDURE FOR Student Level: This course is open to students on the college level in the sophomore year. Catalog Description: CHM4250 - ORGANIC

More information

Course Outline. TERM EFFECTIVE: Fall 2016 CURRICULUM APPROVAL DATE: 03/14/2016

Course Outline. TERM EFFECTIVE: Fall 2016 CURRICULUM APPROVAL DATE: 03/14/2016 5055 Santa Teresa Blvd Gilroy, CA 95023 Course Outline COURSE: CHEM 12A DIVISION: 10 ALSO LISTED AS: TERM EFFECTIVE: Fall 2016 CURRICULUM APPROVAL DATE: 03/14/2016 SHORT TITLE: ORGANIC CHEMISTRY LONG TITLE:

More information

COURSE OBJECTIVES / OUTCOMES / COMPETENCIES.

COURSE OBJECTIVES / OUTCOMES / COMPETENCIES. COURSE OBJECTIVES / OUTCOMES / COMPETENCIES. By the end of the course, students should be able to do the following: See Test1-4 Objectives/Competencies as listed in the syllabus and on the main course

More information

CHEMISTRY 231 GENERAL ORGANIC CHEMISTRY I FALL 2014 List of Topics / Examination Schedule

CHEMISTRY 231 GENERAL ORGANIC CHEMISTRY I FALL 2014 List of Topics / Examination Schedule Page 1 of 5 CHEMISTRY 231 FALL 2014 List of Topics / Examination Schedule Unit Starts Topic of Study 20 Aug 2014 STRUCTURE AND BONDING Suggested Reading: Chapter 1 29 Aug 2014 ALKANES & CYCLOALKANES Suggested

More information

Montgomery County Community College CHE 261 Organic Chemistry I

Montgomery County Community College CHE 261 Organic Chemistry I Montgomery County Community College CHE 261 Organic Chemistry I 4-3-3 COURSE DESCRIPTION: This course covers the nomenclature, structure, properties and reactions of many important classes of organic compounds.

More information

CHEM 25: Organic Chemistry I https://moodle.drew.edu (2009FA-CHEM )

CHEM 25: Organic Chemistry I https://moodle.drew.edu (2009FA-CHEM ) CHEM 25: Organic Chemistry I https://moodle.drew.edu (2009FA-CHEM-25-001) Instructor Jane M. Liu, Ph.D. Hall of Sciences S212 jliu3@drew.edu (973-408-3303) Class 9:30-10:35am M, W, F (S244) Laboratory

More information

CHEM ORGANIC CHEMISTRY

CHEM ORGANIC CHEMISTRY BRAZOSPORT COLLEGE LAKE JACKSON, TEXAS SYLLABUS CHEM 2423 - ORGANIC CHEMISTRY CATALOG DESCRIPTION: CHEM 2423 Organic Chemistry I. CIP 4005045203 A study of the nomenclature, classification and reactions

More information

Exam 1 (Monday, July 6, 2015)

Exam 1 (Monday, July 6, 2015) Chem 231 Summer 2015 Assigned Homework Problems Last updated: Friday, July 24, 2015 Problems Assigned from Essential Organic Chemistry, 2 nd Edition, Paula Yurkanis Bruice, Prentice Hall, New York, NY,

More information

Required Materials For complete material(s) information, refer to

Required Materials For complete material(s) information, refer to Butler Community College Science, Technology, Engineering, and Math Division Robert Carlson Revised Fall 2017 Implemented Spring 2018 COURSE OUTLINE Organic Chemistry 1 Course Description CH 240. Organic

More information

Course Outline For: Organic Chemistry I (CHM 270) Credits: 5 Contact Hours: Lecture: 3 Lab: 4

Course Outline For: Organic Chemistry I (CHM 270) Credits: 5 Contact Hours: Lecture: 3 Lab: 4 Course Outline For: Organic Chemistry I (CHM 270) Credits: 5 Contact Hours: Lecture: 3 Lab: 4 NOTE on Laboratory: Both Lecture and Laboratory must be taken simultaneously; separate grades will not be given

More information

Prerequisites: CHEM 1312 and CHEM 1112, or CHEM 1412 General Chemistry II (Lecture and Laboratory)

Prerequisites: CHEM 1312 and CHEM 1112, or CHEM 1412 General Chemistry II (Lecture and Laboratory) Course Syllabus CHEM 2423 Organic Chemistry I Revision Date: 8/19/2013 Catalog Description: Fundamental principles of organic chemistry will be studied, including the structure, bonding, properties, and

More information

Organic Chemistry I Lesson Objectives, Lesson Problems, Course Outline Spring 2008

Organic Chemistry I Lesson Objectives, Lesson Problems, Course Outline Spring 2008 Organic Chemistry I Lesson Objectives, Lesson Problems, Course Outline Spring 2008 Lesson Date Assignment Lesson Objective Description Lesson Problems 4 14-Jan Chapter 1 Quiz Describe how bond polarity

More information

CH 331 Syllabus Fall 2012

CH 331 Syllabus Fall 2012 Instructor Information: Dr. Daniel J. T. Myles Office: Gilbert Hall 145 Phone: 541-737-6756 E-mail: daniel.myles@oregonstate.edu All course information, updates, and announcements are posted via Blackboard

More information

PELLISSIPPI STATE COMMUNITY COLLEGE MASTER SYLLABUS BASIC ORGANIC & BIOCHEMISTRY CHEM 1020

PELLISSIPPI STATE COMMUNITY COLLEGE MASTER SYLLABUS BASIC ORGANIC & BIOCHEMISTRY CHEM 1020 PELLISSIPPI STATE COMMUNITY COLLEGE MASTER SYLLABUS BASIC ORGANIC & BIOCHEMISTRY CHEM 1020 Class Hours: 3.0 Credit Hours: 4.0 Laboratory Hours: 3.0 Revised: Spring 2011 Catalog Course Description: Organic

More information

SYLLABUS. Departmental Syllabus. Organic Chemistry I CHEM Departmental Syllabus. Departmental Syllabus. Departmental Syllabus

SYLLABUS. Departmental Syllabus. Organic Chemistry I CHEM Departmental Syllabus. Departmental Syllabus. Departmental Syllabus DATE OF LAST REVIEW: 05/2018 CIP CODE: 24.0101 SYLLABUS SEMESTER: COURSE TITLE: COURSE NUMBER: Organic Chemistry I CHEM-0211 CREDIT HOURS: 3 INSTRUCTOR: OFFICE LOCATION: OFFICE HOURS: TELEPHONE: EMAIL:

More information

PELLISSIPPI STATE TECHNICAL COMMUNITY COLLEGE MASTER SYLLABUS APPLIED ORGANIC CHEMISTRY W/ LAB CHT 2210

PELLISSIPPI STATE TECHNICAL COMMUNITY COLLEGE MASTER SYLLABUS APPLIED ORGANIC CHEMISTRY W/ LAB CHT 2210 PELLISSIPPI STATE TECHNICAL COMMUNITY COLLEGE MASTER SYLLABUS APPLIED ORGANIC CHEMISTRY W/ LAB CHT 2210 Class Hours: 3.0 Credit Hours: 4.0 Laboratory Hours: 3.0 Date Revised: Fall 2001 NOTE: This course

More information

September 2011 BOTH THEORY AND LABORATORY PARTS OF THIS COURSE MUST BE TAKEN CONCURRENTLY IN ORDER TO RECEIVE CREDIT.

September 2011 BOTH THEORY AND LABORATORY PARTS OF THIS COURSE MUST BE TAKEN CONCURRENTLY IN ORDER TO RECEIVE CREDIT. FARMINGDALE STATE COLLEGE DEPARTMENT OF CHEMISTRY COURSE OUTLINE: COURSE TITLE: Dr. M. De Castro September 2011 Organic Chemistry I COURSE NUMBER: CHM 270 CREDITS: 5 CONTACT HOURS: Lecture: 3 Laboratory:

More information

CHE 171: Mechanistic Organic Chemistry I

CHE 171: Mechanistic Organic Chemistry I CHE 171: Mechanistic Organic Chemistry I Syllabus, Autumn Quarter 2003 Instructor: Dr. Matthew R. Dintzner Office hours: Mondays 9:00-11:30 AM, Tuesdays 10:00-12:30, or by appointment Office, Lab: O'Connell

More information

Chapter 2: An Introduction to Organic Compounds

Chapter 2: An Introduction to Organic Compounds Chapter : An Introduction to Organic Compounds I. FUNCTIONAL GROUPS: Functional groups with similar structure/reactivity may be "grouped" together. A. Functional Groups With Carbon-Carbon Multiple Bonds.

More information

Alabama Department of Postsecondary Education

Alabama Department of Postsecondary Education Alabama Department of Postsecondary Education Representing Alabama s Public Two-Year College System Jefferson State Community College CHM 221 Organic Chemistry I I. CHM 221 Organic Chemistry I - Prerequisite

More information

Course Information. Instructor Information

Course Information. Instructor Information Jordan University of Science and Technology Department of Chemistry Course Syllabus Fall 2018/2019 Course Information Course Number: CHEM 108 Course Name: General and Organic Chemistry Credit Hours: 4

More information

Organic Chemistry 112 A B C - Syllabus Addendum for Prospective Teachers

Organic Chemistry 112 A B C - Syllabus Addendum for Prospective Teachers Chapter Organic Chemistry 112 A B C - Syllabus Addendum for Prospective Teachers Ch 1-Structure and bonding Ch 2-Polar covalent bonds: Acids and bases McMurry, J. (2004) Organic Chemistry 6 th Edition

More information

CHEM2410 Organic Chemistry I - Honors

CHEM2410 Organic Chemistry I - Honors CHEM2410 Organic Chemistry I - Honors The University of Toledo Department of Chemistry and Biochemistry College of Natural Sciences and Mathematics CRN: 49264/49268 (Sect. 091/092) Instructor: Dr. Peter

More information

A SURVEY OF ORGANIC CHEMISTRY CHEMISTRY 1315 TuTr 9:35-10:55 am, Boggs B6

A SURVEY OF ORGANIC CHEMISTRY CHEMISTRY 1315 TuTr 9:35-10:55 am, Boggs B6 GEORGIA INSTITUTE OF TECHNOLOGY School of Chemistry and Biochemistry Spring 2004 A SURVEY OF ORGANIC CHEMISTRY CHEMISTRY 1315 TuTr 9:35-10:55 am, Boggs B6 Instructor: Marcus Weck Office: Boggs 3-85 Phone:

More information

UNIVERSITY OF CALGARY DEPARTMENT OF CHEMISTRY COURSE SYLLABUS SPRING COURSE: CHEMISTRY 201, General Chemistry: Structure & Bonding

UNIVERSITY OF CALGARY DEPARTMENT OF CHEMISTRY COURSE SYLLABUS SPRING COURSE: CHEMISTRY 201, General Chemistry: Structure & Bonding UNIVERSITY OF CALGARY DEPARTMENT OF CHEMISTRY COURSE SYLLABUS SPRING 2015 COURSE: CHEMISTRY 201, General Chemistry: Structure & Bonding LEC DAYS TIME ROOM INSTRUCTOR OFFICE EMAIL L01 MWF 12:30-2:20 ST

More information

PELLISSIPPI STATE TECHNICAL COMMUNITY COLLEGE MASTER SYLLABUS ORGANIC CHEMISTRY I CHEM Class Hours: 3.0 Credit Hours: 4.0

PELLISSIPPI STATE TECHNICAL COMMUNITY COLLEGE MASTER SYLLABUS ORGANIC CHEMISTRY I CHEM Class Hours: 3.0 Credit Hours: 4.0 PELLISSIPPI STATE TECHNICAL COMMUNITY COLLEGE MASTER SYLLABUS ORGANIC CHEMISTRY I CHEM 2010 Class Hours: 3.0 Credit Hours: 4.0 Laboratory Hours: 1.0 Date Revised: Fall 2001 Catalog Course Description:

More information

UNIVERSITY OF CALGARY FACULTY OF SCIENCE DEPARTMENT OF CHEMISTRY COURSE SYLLABUS WINTER 2018 EEEL 235A. Dr. Wendy Benoit

UNIVERSITY OF CALGARY FACULTY OF SCIENCE DEPARTMENT OF CHEMISTRY COURSE SYLLABUS WINTER 2018 EEEL 235A. Dr. Wendy Benoit 1. Course: CHEMISTRY 351, Organic Chemistry I UNIVERSITY OF CALGARY FACULTY OF SCIENCE DEPARTMENT OF CHEMISTRY COURSE SYLLABUS WINTER 2018 LEC DAYS TIME ROOM INSTRUCTOR OFFICE EMAIL OFFICE HOURS L01 MWF

More information

MOLECULAR REPRESENTATIONS AND INFRARED SPECTROSCOPY

MOLECULAR REPRESENTATIONS AND INFRARED SPECTROSCOPY MOLEULAR REPRESENTATIONS AND INFRARED SPETROSOPY A STUDENT SOULD BE ABLE TO: 1. Given a Lewis (dash or dot), condensed, bond-line, or wedge formula of a compound draw the other representations. 2. Give

More information

SYLLABUS. Departmental Syllabus. General Chemistry. Departmental Syllabus. Departmental Syllabus. Departmental Syllabus. Departmental Syllabus

SYLLABUS. Departmental Syllabus. General Chemistry. Departmental Syllabus. Departmental Syllabus. Departmental Syllabus. Departmental Syllabus SYLLABUS DATE OF LAST REVIEW: 05/2018 CIP CODE: 24.0101 SEMESTER: COURSE TITLE: COURSE NUMBER: General Chemistry CHEM-0109 CREDIT HOURS: 5 INSTRUCTOR: OFFICE LOCATION: OFFICE HOURS: TELEPHONE: EMAIL: KCKCC-issued

More information

Alabama. Department of. Postsecondary Education

Alabama. Department of. Postsecondary Education Date Adopted: July 1, 1998 Date Reviewed: December 1, 1999 Date Revised: 1999, 2007, 2011, 2013 Alabama Department of Postsecondary Education Representing Alabama s Public Two-Year College System Jefferson

More information

(There are no "make-up" exams - don't ask for one)

(There are no make-up exams - don't ask for one) ORGANIC CHEMISTRY (CH 203 L and CH 203 D) COURSE OUTLINE Instructor: Professor Claus Rüger, Professor Wolf D. Habicher Office: Chemieneubau, room 127 / 128 Office telephone: 463 35057 / 463 34093 Email:

More information

Keynotes in Organic Chemistry

Keynotes in Organic Chemistry Keynotes in Organic Chemistry Second Edition ANDREW F. PARSONS Department of Chemistry, University of York, UK Wiley Contents Preface xi 1 Structure and bonding 1 1.1 Ionic versus covalent bonds 1 1.2

More information

4. Prerequisites Grade of C or better in Chemistry 201 & Chem. 203 or consent of the department chairperson

4. Prerequisites Grade of C or better in Chemistry 201 & Chem. 203 or consent of the department chairperson 1 Harry S Truman College Master Syllabus Chemistry 205 Organic Chemistry I Active IAI Code CHM 914 1. Title, Number, and Classification Organic Chemistry I 073-0205-1 2. Course Term 16 week Semester or

More information

COURSE: CHEMISTRY 211, Foundations of Chemistry: Structure and Bonding

COURSE: CHEMISTRY 211, Foundations of Chemistry: Structure and Bonding DEPARTMENT OF CHEMISTRY COURSE SYLLABUS FALL 2014 COURSE: CHEMISTRY 211, Foundations of Chemistry: Structure and Bonding LEC DAYS TIME ROOM INSTRUCTOR OFFICE PHONE EMAIL L01 TR 11:00-12:15 EEEL161 Dr.

More information

ORGANIC CHEMISTRY. Wiley STUDY GUIDE AND SOLUTIONS MANUAL TO ACCOMPANY ROBERT G. JOHNSON JON ANTILLA ELEVENTH EDITION. University of South Florida

ORGANIC CHEMISTRY. Wiley STUDY GUIDE AND SOLUTIONS MANUAL TO ACCOMPANY ROBERT G. JOHNSON JON ANTILLA ELEVENTH EDITION. University of South Florida STUDY GUIDE AND SOLUTIONS MANUAL TO ACCOMPANY ORGANIC CHEMISTRY ELEVENTH EDITION T. W. GRAHAM SOLOMONS University of South Florida CRAIG B. FRYHLE Pacific Lutheran University SCOTT A. SNYDER Columbia University

More information

Form 0 CHE321 Exam 1 9/26/2006

Form 0 CHE321 Exam 1 9/26/2006 CE321 Exam 1 9/26/2006 Multiple Choice Questions. 60 points 1. Draw the two best contributing structures for methylimidate. To get you started a partial structure is given. C C C Choose the incorrect statement.

More information

Organic Chemistry Syllabus

Organic Chemistry Syllabus Organic Chemistry Syllabus 2017-2018 Instructor Information: Teacher: James Poindexter Room: Belle Vernon Area High School, Room 412 Contact: Phone: 724-808-2500; ext.2412 Email: james.poindexter@bellevernonarea.net

More information

12.1 The Nature of Organic molecules

12.1 The Nature of Organic molecules 12.1 The Nature of Organic molecules Organic chemistry: : The chemistry of carbon compounds. Carbon is tetravalent; it always form four bonds. Prentice Hall 2003 Chapter One 2 Organic molecules have covalent

More information

Hunan University. CHEM32: Organic Chemistry

Hunan University. CHEM32: Organic Chemistry Academic Inquiries: Hunan University Email: iss@hnu.edu.cn Hunan University CHEM32: Organic Chemistry Professor: To be announced Total contact hours: 54 hours Credit: 4 Course Description Topics covered

More information

Carlson. Organic chemistry 1 lab manual. Butler Community College.

Carlson. Organic chemistry 1 lab manual. Butler Community College. Butler Community College Science, Technology, Engineering, and Math Division Robert Carlson Fall 2003 Textbook Update Fall 2016 COURSE OUTLINE Organic Chemistry I Course Description: CH240. Organic Chemistry

More information

COWLEY COLLEGE & Area Vocational Technical School

COWLEY COLLEGE & Area Vocational Technical School COWLEY COLLEGE & Area Vocational Technical School COURSE PROCEDURE FOR ORGANIC CHEMISTRY II CHM 4251 5 Credit Hours Student Level: This course is open to students on the college level in the sophomore

More information

Final Exam. Your lab section and TA name: (if you are not in a lab section write no lab ) Instructions:

Final Exam. Your lab section and TA name: (if you are not in a lab section write no lab ) Instructions: CHEM 232 Final Exam May 10, 2014 RedID number: Signature: Your lab section and TA name: (if you are not in a lab section write no lab ) Instructions: 1. In fairness to all, do not open this test until

More information

Chemistry 20, Section 1204 Fundamentals of Chemistry, 5 Units El Camino College Spring 2008

Chemistry 20, Section 1204 Fundamentals of Chemistry, 5 Units El Camino College Spring 2008 Chemistry 20, Section 1204 Fundamentals of Chemistry, 5 Units El Camino College Spring 2008 Instructor: Lida Latifzadeh Masoudipour, Ph.D. Lecture: M, 6:00 PM 9:10 PM, Room Chem. 133 W, 6:00 PM 7:00 PM,

More information

COURSE: ORGANIC CHEMISTRY

COURSE: ORGANIC CHEMISTRY Página 1 de 7 GENERAL FEATURES* Type: Basic training, Mandatory, Elective Final degree project, External practices Duration: Annual Semester/s: 5 and 6 Number of credits ECTS: 12 Language/s: Spanish, Catalan,

More information

SOUTHERN CONNECTCUT STATE UNIVERSITY

SOUTHERN CONNECTCUT STATE UNIVERSITY Course Number and Title Fall 20xx SOUTHERN CONNECTCUT STATE UNIVERSITY CHE 260 Organic Chemistry I Name: Office Phone: E-mail: Office Hours: COURSE NUMBER 260 CREDIT HOURS: 4 PREREQUISITES: CHE120/121

More information

Exam Analysis: Organic Chemistry, Midterm 1

Exam Analysis: Organic Chemistry, Midterm 1 Exam Analysis: Organic Chemistry, Midterm 1 1) TEST BREAK DOWN: There are three independent topics covered in the first midterm, which are hybridization, structure and isomerism, and resonance. The test

More information

Sul Ross State University Syllabus for Organic Chemistry II: CHEM 3408 (Spring 2017)

Sul Ross State University Syllabus for Organic Chemistry II: CHEM 3408 (Spring 2017) Sul Ross State University Syllabus for Organic Chemistry II: CHEM 3408 (Spring 2017) Class: Organic Chemistry II Instructor: Dr. David J. Leaver Room: WSB 307 Office: WSB 318 Time: MWF 9:00-9:50am Office

More information

FARMINGDALE STATE COLLEGE DEPARTMENT OF CHEMISTRY. CONTACT HOURS: Lecture: 3 Laboratory: 4

FARMINGDALE STATE COLLEGE DEPARTMENT OF CHEMISTRY. CONTACT HOURS: Lecture: 3 Laboratory: 4 FARMINGDALE STATE COLLEGE DEPARTMENT OF CHEMISTRY COURSE OUTLINE: COURSE TITLE: Prepared by: Dr. M. DeCastro September 2011 Organic Chemistry II COURSE NUMBER: CHM 271 CREDITS: 5 CONTACT HOURS: Lecture:

More information

JEFFERSON COLLEGE COURSE SYLLABUS CHM201 ORGANIC CHEMISTRY II. 5 Credit Hours. Prepared by: Richard A. Pierce

JEFFERSON COLLEGE COURSE SYLLABUS CHM201 ORGANIC CHEMISTRY II. 5 Credit Hours. Prepared by: Richard A. Pierce JEFFERSON COLLEGE COURSE SYLLABUS CHM201 ORGANIC CHEMISTRY II 5 Credit Hours Prepared by: Richard A. Pierce Revised Date: January 2008 by Ryan H. Groeneman Arts & Science Education Dr. Mindy Selsor, Dean

More information

Nuggets of Knowledge for Chapter 17 Dienes and Aromaticity Chem 2320

Nuggets of Knowledge for Chapter 17 Dienes and Aromaticity Chem 2320 Nuggets of Knowledge for Chapter 17 Dienes and Aromaticity Chem 2320 I. Isolated, cumulated, and conjugated dienes A diene is any compound with two or C=C's is a diene. Compounds containing more than two

More information

Georgia Gwinnett College CHEM 2212 Organic Chemistry II Course Syllabus Summer MTWR, 9-11am, A1640 (class); MTW, pm, A1290 (lab)

Georgia Gwinnett College CHEM 2212 Organic Chemistry II Course Syllabus Summer MTWR, 9-11am, A1640 (class); MTW, pm, A1290 (lab) Georgia Gwinnett College CHEM 2212 Organic Chemistry II Course Syllabus Summer 2008 Class Meetings: Instructor: Office: E-Mail: Phone Number: Wiki page: MTWR, 9-11am, A1640 (class); MTW, 1.15-4pm, A1290

More information

Chemistry 8 Principles of Organic Chemistry Spring Semester, 2013

Chemistry 8 Principles of Organic Chemistry Spring Semester, 2013 Chemistry 8 Principles of Organic Chemistry Spring Semester, 2013 Instructor: Office Hours: At the Lantern Prof. Jason Hein Mon 2:30 3:30 Email: jhein2@ucmerced.edu Tue 1:30 2:30 Phone: 683-4650 Office:

More information

Course Syllabus. Department: Science & Technology. Date: April I. Course Prefix and Number: CHM 212. Course Name: Organic Chemistry II

Course Syllabus. Department: Science & Technology. Date: April I. Course Prefix and Number: CHM 212. Course Name: Organic Chemistry II Department: Science & Technology Date: April 2012 I. Course Prefix and Number: CHM 212 Course Name: Organic Chemistry II Course Syllabus Credit Hours and Contact Hours: 5 credit hours and 7 (3:3:1) contact

More information

1. (6 points) Provide IUPAC accepted names for the following compounds. 2. (6 points) Provide a structure for the following compounds.

1. (6 points) Provide IUPAC accepted names for the following compounds. 2. (6 points) Provide a structure for the following compounds. Chem52 omework Set 1 This homework set is similar to a Chem 51 final exam. Please provide answers in the spaces provided or, preferably, on attached sheets. Point values are listed only to give you the

More information

Course Syllabus. offered by Department of Chemistry with effect from Semester B 2017/18

Course Syllabus. offered by Department of Chemistry with effect from Semester B 2017/18 SYL offered by Department of Chemistry with effect from Semester B 2017/18 This form is for the completion by the Course Leader. The information provided on this form is the official record of the course.

More information

Fall 2017 CHE 275 Organic Chemistry I

Fall 2017 CHE 275 Organic Chemistry I Fall 2017 CHE 275 Organic Chemistry I Instructor: Professor Yan-Yeung Luk (yluk@syr.edu) ; Phone: 315-443-7440 Office: Center for Science and Technology (CST) 3-038 Office Hours: Mon & Wed 10:45AM 11:45AM,

More information

Fundamentals of. Organic Chemistry. for. [Second Year B.Sc. (Main) Students of M.G. University, Kerala] III Semester

Fundamentals of. Organic Chemistry. for. [Second Year B.Sc. (Main) Students of M.G. University, Kerala] III Semester Fundamentals of Organic Chemistry for [Second Year B.Sc. (Main) Students of M.G. University, Kerala] III Semester (This Book is an outcome of Modern Organic Chemistry by M.K. Jain & S.C. Sharma duly recommended

More information

Bergen Community College Division of Mathematics, Science and Technology Department of Physical Sciences. Course Syllabus CHM 112 College Chemistry

Bergen Community College Division of Mathematics, Science and Technology Department of Physical Sciences. Course Syllabus CHM 112 College Chemistry Bergen Community College Division of Mathematics, Science and Technology Department of Physical Sciences Course Syllabus CHM 112 College Chemistry COURSE TITLE: PRE-REQUISITE: TEXTBOOK: CHM 112 College

More information

MSC. ISMAIL M.ALI DEPARTMENT OF CHEMICAL ENGINEEING COLLEGE OF ENGINEERING TIKRIT UNIVERSITY

MSC. ISMAIL M.ALI DEPARTMENT OF CHEMICAL ENGINEEING COLLEGE OF ENGINEERING TIKRIT UNIVERSITY LECTURE 1 SYLLABUS FOR FIRST CLASS 2013-2014 MSC. ISMAIL M.ALI DEPARTMENT OF CHEMICAL ENGINEEING COLLEGE OF ENGINEERING TIKRIT UNIVERSITY MANDATORY CLASS: 1ST ORGANIC CHEMISTRY CH 122 Teaching scheme:

More information

EXPERIMENT 1: Survival Organic Chemistry: Molecular Models

EXPERIMENT 1: Survival Organic Chemistry: Molecular Models EXPERIMENT 1: Survival Organic Chemistry: Molecular Models Introduction: The goal in this laboratory experience is for you to easily and quickly move between empirical formulas, molecular formulas, condensed

More information

Montgomery County Community College CHE 122 General Chemistry-Organic (For the Non-Science Major) 4-3-3

Montgomery County Community College CHE 122 General Chemistry-Organic (For the Non-Science Major) 4-3-3 Montgomery County Community College CHE 122 General Chemistry-Organic (For the Non-Science Major) 4-3-3 COURSE DESCRIPTION: This course emphasizes introductory Organic Chemistry and Biochemistry. The examination

More information

Chemistry 200: Basic Chemistry and Applications Course Syllabus: Spring

Chemistry 200: Basic Chemistry and Applications Course Syllabus: Spring Chemistry 200: Basic Chemistry and Applications Course Syllabus: Spring 2017 2018 Course Instructors Faraj Hasanayn; Office of Faraj Hasanayn: Chem Bldg. Rm 522 Office Hours: TBA Email: fh19@aub.edu.lb.

More information

Course Syllabus Chemistry 111 Introductory Chemistry I

Course Syllabus Chemistry 111 Introductory Chemistry I Course Syllabus Chemistry 111 Introductory Chemistry I Course Description: Introduction to the principles and concepts of chemical thought. Number of Credit Hours: 3 semester hours - 3 hours lecture per

More information

CHEMISTRY MAJOR PANEL

CHEMISTRY MAJOR PANEL CHEMISTRY MAJOR PANEL Course Approval Criteria Updated Spring 17 5/17/17 An institutionally-approved representative syllabus in electronic format from a recent offering is required for the panel to review.

More information

COMMUNITY COLLEGE OF RHODE ISLAND CHEMISTRY DEPARTMENT. Syllabus and Course Information. for. Survey of Biomedical Chemistry CHEM 1010.

COMMUNITY COLLEGE OF RHODE ISLAND CHEMISTRY DEPARTMENT. Syllabus and Course Information. for. Survey of Biomedical Chemistry CHEM 1010. COMMUNITY COLLEGE OF RHODE ISLAND CHEMISTRY DEPARTMENT Syllabus and Course Information for Survey of Biomedical Chemistry CHEM 1010 Fall 2003 Credits: 5 Lecture: 3 hours/week Recitation: 1 hour/week Lab:

More information

Chemistry Organic Chemistry II, Spring 2018

Chemistry Organic Chemistry II, Spring 2018 Chemistry 2320 Organic Chemistry II, Spring 2018 Instructor: Dr. Tom Chang Office: Widtsoe 337 Phone: 797-3545 Email: tom.chang@usu.edu Meeting Time/Place: MWF 10:30-11:20 am, Eccles Business Building

More information

Chem Final Examination August 7, 2004

Chem Final Examination August 7, 2004 Chem 281 2004-2 Final Examination August 7, 2004 Name: Student Number: Note: You are allowed to use models for this exam. Notes, textbooks and calculators are strictly prohibited. Write your final answers

More information

1. Which compound would you expect to have the lowest boiling point? A) NH 2 B) NH 2

1. Which compound would you expect to have the lowest boiling point? A) NH 2 B) NH 2 MULTIPLE CICE QUESTINS Topic: Intermolecular forces 1. Which compound would you expect to have the lowest boiling point? A) N 2 B) N 2 C) N D) E) N Ans: : N 2 D Topic: Molecular geometry, dipole moment

More information

EMA 3011 Fundamental Principles of Materials, Section 9765 Spring, 2014

EMA 3011 Fundamental Principles of Materials, Section 9765 Spring, 2014 EMA 3011 Fundamental Principles of Materials, Section 9765 Spring, 2014 1. Catalog Description: The fundamental principles of structure, reactivity and energies describing materials systems will be covered,

More information

CHEM*2700 ORGANIC CHEMISTRY I (Spring/Summer Semester 2009) Information Sheet and Course Outline

CHEM*2700 ORGANIC CHEMISTRY I (Spring/Summer Semester 2009) Information Sheet and Course Outline CHEM*2700 ORGANIC CHEMISTRY I (Spring/Summer Semester 2009) Information Sheet and Course Outline Instructor: Professor William Tam Office: MacN 332 Phone: 824-4120 (Ext.52268) E-mail: wtam@uoguelph.ca

More information

JEFFERSON COLLEGE COURSE SYLLABUS CHM201 ORGANIC CHEMISTRY II. 5 Credit Hours. Prepared by: Richard A. Pierce. Revised by: Sean Birke October, 2013

JEFFERSON COLLEGE COURSE SYLLABUS CHM201 ORGANIC CHEMISTRY II. 5 Credit Hours. Prepared by: Richard A. Pierce. Revised by: Sean Birke October, 2013 JEFFERSON COLLEGE COURSE SYLLABUS CHM201 ORGANIC CHEMISTRY II 5 Credit Hours Prepared by: Richard A. Pierce Revised by: Sean Birke October, 2013 Ms. Linda Abernathy, Math, Science & Business Division Chair

More information

Syllabus for CHEM 220 (and CHEM 220L) Introductory Organic Chemistry

Syllabus for CHEM 220 (and CHEM 220L) Introductory Organic Chemistry Syllabus for CHEM 220 (and CHEM 220L) Introductory Organic Chemistry Instructor: Dr. David Freistroffer Office: Lundberg 109C (in the fishbowl ) Phone: 753-2018 Email: davidf@gwmail.gbcnv.edu Office hours:

More information

Topic 1: Quantitative chemistry

Topic 1: Quantitative chemistry covered by A-Level Chemistry products Topic 1: Quantitative chemistry 1.1 The mole concept and Avogadro s constant 1.1.1 Apply the mole concept to substances. Moles and Formulae 1.1.2 Determine the number

More information

Solutions and Organic Chemistry

Solutions and Organic Chemistry Adult Basic Education Science Chemistry 2102C Solutions and Organic Chemistry Prerequisites: Chemistry 1102 Chemistry 2102A Chemistry 2102B Credit Value: 1 Chemistry Concentration Chemistry 1102 Chemistry

More information

1. What are the respective hybridizations of the atoms numbered 1 to 4 in this compound?

1. What are the respective hybridizations of the atoms numbered 1 to 4 in this compound? CEM 331: Chapter 1/2: Structures (Atoms, Molecules, Bonding) 1. What are the respective hybridizations of the atoms numbered 1 to 4 in this compound? N C 2 C N C 2 C N 1 2 3 4 1: three sigma bonds and

More information

Boston University Dresden Science Program ORGANIC CHEMISTRY CAS CH 203 Lecture

Boston University Dresden Science Program ORGANIC CHEMISTRY CAS CH 203 Lecture Boston University Dresden Science Program ORGANIC CHEMISTRY CAS CH 203 Lecture Instructor: Professor Wolf D. Habicher, Dr. Tilo Lübken, Dr. Cordelia Zimmerer Meeting Times Lectures: twice a week at 90

More information

Departmental Final Examination. Organic Chemistry I Caffein

Departmental Final Examination. Organic Chemistry I Caffein Departmental Final Examination rganic Chemistry I 2423 Caffein Name CEMISTRY 2423 FINAL EXAM FALL, 2005 DIRECTINS: A periodic table is attached at the end of this exam. Please answer all questions as completely

More information

75. A This is a Markovnikov addition reaction. In these reactions, the pielectrons in the alkene act as a nucleophile. The strongest electrophile will

75. A This is a Markovnikov addition reaction. In these reactions, the pielectrons in the alkene act as a nucleophile. The strongest electrophile will 71. B SN2 stands for substitution nucleophilic bimolecular. This means that there is a bimolecular rate-determining step. Therefore, the reaction will follow second-order kinetics based on the collision

More information

Level I Course Units Offered by The Department of Chemistry For

Level I Course Units Offered by The Department of Chemistry For Level I Course Units Offered by The Department of Chemistry For General Degree (3 year) [Bachelor of Science SLQF5] General Degree (4 year-molecular Biology & Biotechnology) [Bachelor of Science (Molecular

More information

CHEMISTRY 341. Final Exam Tuesday, December 16, Problem 1 15 pts Problem 9 8 pts. Problem 2 5 pts Problem pts

CHEMISTRY 341. Final Exam Tuesday, December 16, Problem 1 15 pts Problem 9 8 pts. Problem 2 5 pts Problem pts CEMISTRY 341 Final Exam Tuesday, December 16, 1997 Name NAID Problem 1 15 pts Problem 9 8 pts Problem 2 5 pts Problem 10 21 pts Problem 3 26 pts Problem 11 15 pts Problem 4 10 pts Problem 12 6 pts Problem

More information

CHEM 203. Midterm Exam 1 October 31, 2008 ANSWERS. This a closed-notes, closed-book exam. You may use your set of molecular models

CHEM 203. Midterm Exam 1 October 31, 2008 ANSWERS. This a closed-notes, closed-book exam. You may use your set of molecular models CEM 203 Midterm Exam 1 ctober 31, 2008 Your name: ANSWERS This a closed-notes, closed-book exam You may use your set of molecular models This exam contains 8 pages Time: 1h 30 min 1. / 15 2. / 16 3. /

More information

The Basics of General, Organic, and Biological Chemistry

The Basics of General, Organic, and Biological Chemistry The Basics of General, Organic, and Biological Chemistry By Ball, Hill and Scott Download PDF at https://open.umn.edu/opentextbooks/bookdetail.aspx?bookid=40 Page 5 Chapter 1 Chemistry, Matter, and Measurement

More information

About the GRE Chemistry Subject Test p. 1 About the GRE Chemistry Subject Test GRE Chemistry Topics Test Dates Testing Fee Test Format Testing Time

About the GRE Chemistry Subject Test p. 1 About the GRE Chemistry Subject Test GRE Chemistry Topics Test Dates Testing Fee Test Format Testing Time About the GRE Chemistry Subject Test p. 1 About the GRE Chemistry Subject Test GRE Chemistry Topics Test Dates Testing Fee Test Format Testing Time Scoring To Guess or Not to Guess On the Day of the Test

More information

Organic Chemistry I and II challenge exam

Organic Chemistry I and II challenge exam Organic Chemistry I and II challenge exam Dear student: Organic Chemistry I and II at LCSC covers the standard one year organic curriculum and students take the two-semester ACS exam as their spring final.

More information

EXPERIMENT 1: Survival Organic Chemistry: Molecular Models

EXPERIMENT 1: Survival Organic Chemistry: Molecular Models EXPERIMENT 1: Survival Organic Chemistry: Molecular Models Introduction: The goal in this laboratory experience is for you to easily and quickly move between empirical formulas, molecular formulas, condensed

More information