COMMUNITY COLLEGE of RHODE ISLAND Chemistry Department Course Information Package CHEM-1000, Chemistry of Our Environment Section 001 T, Th; 9:00 10:25 Lecture, Room 3046 T 1:00 3:50 Lab (Room 3046) Spring, 2015 INSTRUCTOR Don Jurkowitz OFFICE Room 3268; Tel. 825-2010 TEXT Chemistry for Changing Times, 13 th Edition, -- Third Custom Edition for CCRI - by Hill, McCreary and Kolb Other Supplies A stand alone calculator (not part of your cell phone) (preferably a scientific calculator).
Introduction The primary objective of this course is to meet one semester of the science requirement for liberal arts majors, but it also serves to meet the chemistry requirement for Fire Science. In order to meet these varied needs we will spend the majority of time learning basic principles in chemistry. By the end of this course students will have learned about the basic substances in Nature; atomic theory and how it explains chemical bonding. They will also learn about physical and chemical reactions, and the energy changes that occur. They will learn how to balance standard chemical equations, along with basic stoichiometry. They will learn about Boyle s and Charles Gas Laws and how to apply them. They will learn about acids and bases and ph and practical applications. They will learn about oxidation and reduction; application to batteries. They will have a brief introduction to organic substances. They will learn about polymers, both synthetic and natural. They will also be introduced to very basic biochemistry, primarily carbohydrates, fats and proteins. They will learn about nucleic acids and their role in protein synthesis. There will also be a lab component to the course. There will be 1 experiment each week. A detailed discussion of the lab requirements will be given during lab. Each lab is designed to illustrate some concept that has been discussed in lecture. An attempt has been made to make these labs as interesting and enjoyable as possible. A lab report is required for each experiment, which will be graded. These grades will comprise about 33% of your final course grade. This package also contains a list of topics that we will cover during lecture. The pages dealing with these topics in your text are listed with the topics. You are strongly advised to read this material before coming to class. You will benefit much more from the lecture if you have read the material than if you have not. You will all receive a copy of my notes, which will be the basis for our class discussions. This package also contains a list of recommended homework for each chapter. This is a minimum amount that you should do. This does not prevent you from trying more or all of the questions within and at the end of each chapter. The more you do, the easier it will be for you to understand the material. Homework will not be collected or graded, however. It will be up to you to keep up with this work. The answers to all practice examples throughout the chapters plus the answers to the questions marked in red at the ends of each chapter are available in Appendix C at the back of the textbook and I am available during office hours or after class to explain any of the questions. There will be 3 exams given during class time. No make-up exams will be given, but to account for an unforeseen absence from an exam, your lowest grade will be dropped. If you miss an exam, that will be your drop. In addition to these 3 exams, there will be a final exam covering the entire course, which must be taken in order to get a grade in this course. Also, periodic short quizzes may be given, but all quizzes will be preannounced. There will be NO surprise quizzes. Each exam will be worth 100 points. The final exam will be worth 150 points. The quizzes will be worth 10 points each. The lowest quiz grade will be dropped. The lab reports are worth 20 points each. The lowest 2 lab report grades will be dropped. Your final grade will be determined by adding all your grades and dividing by the maximum total number of points possible and multiplying by 100.
Below is a list of grades: A - 93 and above A - - 90-92 B + - 87-89 B - 83-86 B - - 80-82 C + - 77-79 C - 70-76 D + - 67-69 D - 60-66 F - < 60 Finally, you will be supplied with a CPS Response pad to use during class. These will be used during the lectures to monitor your understanding of the material presented. You will receive a grade for this class participation. However, it will only count as extra credit. The maximum points available are 30. This can add up to approximately 5% added to your final average. Although the points are extra credit, the use of the response pad is NOT optional. These bonus points added can easily mean the difference between a C+ or a B- or the difference between a B+ and an A-. The procedure for registering your response pad and its use, so you can receive these bonus points will be explained in the first class period. A schedule of experiments to be done during this course appears later in this package. The write-up for each experiment is available on the Internet at www.ccri.edu and then migrating to my Home Page under Faculty web sites and clicking the Course tab under the heading picture, and then clicking lab manual Each lab can be then printed out. If you do not have access to the internet at home, you are all permitted access on campus. You must print out each lab before you come to lab. You are strongly urged to read each experiment before coming to lab. Make sure you print out the correct lab. Check the schedule in this package. The experiments on the Web site are not in the same order. This Course Information Package is also available at that Web site. My office is Room 3268. My telephone # is 825-2010. The FAX # for the Chemistry Department is 825-2241. If you send me any faxes, be sure to indicate that it is for me. My email address is djurkowitz@ccri.edu. My Office Hours are Mon 10:30 1:00;; Wed. 10:30 11:30 and Thurs. 12:00 1:30.
Chemistry of Our Environment Lecture Syllabus Spring, 15 TOPIC TEXT PAGES Chemistry: A Science for all Seasons Definition and approaches to study 1-3 and 10-12 Scientific Method 5-7 Study of Matter Mass and Weight Changes Density Types and States Sub-Microscopic Particles Measurements and Conversions Energy and Temperature Atoms 13 14-15 25-27 16-18 18 20-24 28-30 History 42-46 Atomic Theory 47-48 Periodic Table and Atomic Mass 51-52 Atomic Structure Cathode Ray Tube and Thomson s 62-63 Experiment Radioactivity 66-67 Rutherford s Experiment 68-69 Modern Atomic Theory 69-76 1. Elements and Atoms 2. Atomic Number and Mass Number 3. Isotopes 4. Bohr Model Modern Periodic Table 81-83 Chemical Bonds: The Ties That Bind Electron Dot Symbols 92-93 Types of Bonding 1. Ionic 93-97 2. Covalent: Polar and Non-polar 100-103 EXAM #1 Types of Compounds and their Properties 116 1. Polar 2. Non-polar Formulas of compounds 98-100 Polyatomic ions 105-107 Naming Binary compounds 98 Attractions between Molecules and States 157-159 of Matter 1. Hydrogen Bonding Solution Definition 141
Chemical Accounting: Mass and Volume Relationships Chemical equations 126 1. Balancing 126-128 The Mole and Molecular Mass (Formula Mass) 131-135 Calculations from Balanced Equations 135-137 (Stoichiometry) Solutions and Concentrations 141-145 1. Solubility 2. Molarity 3. Percent Gases and Gas Laws 162-167 Acids and Bases: Please pass the Protons Acid and Base Definitions 176-181 Strength 185-186 Neutralization 186-187 ph 188-190 Antacids 193-194 EXAM #2 Oxidation and Reduction: Burn and Unburn Definitions of Terms 202-207 Batteries 208-212 Antioxidants 219 Organic Chemistry Definition and uniqueness of C 229-230 Hydrocarbons and Alkanes 230-231 Structural Formulas 231-232 Isomers 232-233 Nomenclature 232 Functional Groups 241-242 Polymers: Giants Among Molecules Definition Natural Addition 1. Rubber Condensation Thermoplastic vs. thermosetting Biochemistry Mirror Image Isomers Carbohydrates 1. Sugars 2. Starches and Cellulose 3. Glycogen Fats, Oils and Lipids 1. Saturated 267 267 272-273 276-278 279-282 271 handout 457-460, 495-497 460-462, 498-503
2. Unsaturated Proteins 1. Amino Acids 2. Polypeptides 3. Enzymes Nucleic Acids and Protein Synthesis Antioxidants revisited Steroids, cholesterol and health 463-474, 504-505 476-483 517-518 499-502 FINAL EXAM EXAM #3
LABORATORY SCHEDULE Chemistry of Our Environment Section 001 Spring - 2015 DATE EXPERIMENT 1/20/15 Check-jn + Safety + Introduction 1/27/15 Mass of Pennies 2/3/15 Density 2/10/15 Paper Chromatography 2/17/15 Endothermic & Exothermic Reactions 2/24/15 Freezing Point Measurements 3/3/15 Evaporation and Intermolecular Attractions 3/10/17 Stoichiometry 3/17/15 NO CLASSES! SPRING BREAK 3/24/15 Effect of Temperature on Solubility of a Salt 3/31/15 Gas Laws 4/7/15 Household Acids 4/14/15 Properties of Solutions: Electrolytes and Non-Electrolytes 4/21/15 Preparation of Nylon & Slime 4/28/15 Preparation of Soap
Chemistry of Our Environment Suggested Homework Spring, 2015 CHAPTER PAGES QUESTION # S 1 36-40 11,19,21,23,,29,31,33,35,37,39,41,45,47(a,b,c, e),49,51,53,55,59,65,69 2 58-60 15,17,19,23,35,37,43,47 3 87-88 5,9,13,15,17,23,27,29,35 4 121-124 7,11(a,b,c,d),17(a,b,d),21(a,b),35,41,53,57 5 147-150 7,9,11(a,b),13,15(a,b),23,25,27,29,31,35,39,43(a),45 6 172-173 7,9,13,15(a),17 7 197-199 1,3,5,11,17,23(a,c),33,35,47 8 225-228 3,13,17,27,33,39 9 261-265 3,5,13,15,17(a,b.c),21(a),23,41,45,47 10 291-293 3,5,35 16 489-492 6,7,9,11,17,21,23,31,39first part),55,57,59,61,63 17 525-528 1,17,20,21,23,25