UTRGV COURSE SYLLABUS Inorganic Chemistry CHEM 3301-02 Instructor: Dr. Tülay Aygan Ateşin Fall 2017 Telephone: (956)665-285, Email: tulay.atesin@utrgv.edu Meeting: MW 3:05 pm-:20 pm in EMAGC 2.18 Office Hours: MTWR 5:00 pm - 6:00 pm in ESCNE 3.312 Textbook and/or Resource Material 1- Descriptive Inorganic Chemistry, 6 th Ed., Geoff Rayner-Canham, Tina Overtone. 2- Scientific, non-graphing calculator capable of performing square roots, logarithms, exponentiation, and scientific notation operations (programmable calculators are not permitted) (required). 3- Scantron 882-ES form for exams (required). 3- Computer access and a valid Blackboard (Bb) log in. - Clickers (suggested). 5- UTRGV e-mail address (In accordance with the new university policy, all email communication between the University and students will be conducted through the students' official University supplied email account). Course Description and Prerequisites A descriptive study of modern topics in inorganic chemistry that includes periodicity, acid-base theories, structure, bonding and reactivity of inorganic compounds and chemistry of transition elements and their compounds. Prerequisites: 12 hours of chemistry, including CHEM 2323. Learning Objectives/Outcomes for the Course Students will learn and be able to apply elementary concepts of chemistry including the following: 1- Electronic structure of the atom, 2- Structure of the periodic table, 3- Covalent bonding and molecular spectroscopy, - Metallic bonding, alloys, and composites, 5- Ionic bonding and solid-state behavior, 6- Why compounds exist - inorganic thermodynamics, 7- Solvent systems and acid-base behavior, 8- Oxidation and reduction reactions, 9- Periodic patterns, 10- Transition metal complexes, 11- Organometallic chemistry, 12- Impact of inorganic chemistry on our environment, society and economy. Learning Objectives for Core Curriculum Requirements The overall goal in terms of learning outcomes is to help you to have meaningful learning of the topics we will cover in this course. This meaningful learning involves two main types of learning: a) learning to use formulas, equations, and procedures to carry out calculations and similar types of operations, and b) learning ideas and concepts in order to be able to explain and apply them in possibly new and different situations. The end of each chapter in the text has a section with a review checklist, in which important terms, key equations, a summary of facts and concepts, and operational skills are outlined. The key equations and operational skills are important for the type of learning outlined in part a) above, while the important terms and summary of facts and concepts are important for the type of learning in part b) above. Use these resources! In addition to these inorganic chemistry content learning outcomes above, there are several specific learning objectives for this course. The first learning objective is to develop critical thinking skills, through which you are able to interpret and analyze data, models, laws, and theories in order to explain, evaluate, and predict outcomes of various chemical scenarios. In order to measure the outcome of this learning objective, inorganic chemistry exams will be evaluated to determine the average proportions of the exams focused on critical thinking. These evaluation results will serve as a proxy for the level of emphasis of critical thinking skills in the course. The second learning objective is to develop communication skills, so that you are able to communicate your knowledge and understanding of chemistry to both your peers and your instructors, and so that you are able to effectively evaluate chemical information from various sources, including scientific literature and the media. In order 1
to measure the outcome of this learning objective, instructors will be provided with a survey asking them to report on the frequency with which they have their students working in groups or teams in order to assess the environment for the development of communication skills among students and their peers. The third learning objective is to develop empirical and quantitative skills, so that you can effectively engage in using formulas, equations, and procedures to carry out the various calculations and similar types of operations involved in quantitative aspects of chemistry. In order to measure the outcome of this learning objective, inorganic chemistry exams will be evaluated to determine the average proportions of the exams focused on quantitative skills. These evaluation results will serve as a proxy for the level of emphasis of quantitative skills in the course. The fourth learning objective is to develop teamwork skills, so that you can effectively engage in and contribute to group activities focused on the development and construction of knowledge and understanding of chemical principles, as well as the practice and application of chemical skills and principles. In order to measure the outcome of this learning objective, instructors will be provided with a survey asking them to report on the frequency with which they have their students working in groups or teams in order to assess the environment for the development of team work skills among students and their peers. In this course teamwork is not formally graded, but you will work in small groups during class to answer questions and solve problems. If you continue to work in such groups outside class, whether for homework or for studying, you may positively impact your performance on homework and exams. Grading Policies The lecture exams will be conducted in class on the dates shown below and will test the students understanding of, and ability to apply the principals of inorganic chemistry presented in class. The exams will be consisting of multiple choice questions and will be administered via clickers. There will be no make-up exams and any unexcused absence from an exam will result in a score of zero for any missed exam. Documentation is required for any excuse to drop the score of the missed exam. The scores (or %) for each of the above will be weighted as follows: Points (or %) Dates Lecture Exam # 1 25pts Wednesday, September 27 th, 2017 Lecture Exam # 2 25pts Wednesday, November 1 st, 2017 Lecture Exam # 3 25pts Monday, November 20 th, 2017 Lecture Exam # 25pts Monday, December th, 2017 Final Exam 25pts Wednesday, December 13 th, 2017 Your final grade will be determined by: Best of 5 Exams: 25% each; Total of 100% (If you are happy with you letter grade from the Lecture Exams, you don t have to take the Comprehensive Final Exam) Grades are awarded on the following scale: Letter Grade %Equivalent GPA A (90.0-100) % of total points.000 B (80.0-89.9) % of total points 3.000 C (70.0-79.9) % of total points 2.000 D (60.0-60.9) % of total points 1.000 F (0-59.9) % of total points 0.000 The instructor reserves the right to modify or change the grading progress as the course proceeds. Calendar of Activities Important dates for Fall 2016 include: August 28 First day of classes August 31 Last day to add a course or register for fall 2017 September Labor Day NO classes November 15 Last day to drop a course; will count toward the 6-drop rule November 23 26 Thanksgiving Holiday NO classes December 6 Last day of classes December 7 Study Day NO class December 8-1 Fall 2017 Final Exams December 15-16 Commencement Ceremonies 2
Announcements: Occasionally, the instructor may provide additional instructions for an upcoming lecture prior to class time. These announcements will be communicated via e-mail. It is advised that students check their university issued email accounts daily (e-mail will only be sent to UTRGV accounts). All of the power point slides from the lectures will be uploaded to the course Bb website contents page. Clickers: Clickers are suggested in this course for participating to the in-class problem solving exercises. Where can you go for help with CHEM 3301? 1- Professor: I have office hours available, or you can schedule an appointment or e-mail me if you need help. 2- UTRGV Learning Assistance Center advertises free tutoring available for a number of subject areas, including chemistry. 3- Each other: There are many other students enrolled in CHEM 3301, and it is a great idea to use one another as resources. Help each other, support each other, and challenge each other! Tips for success in CHEM 3301: 1- Attend lectures: Lecture attendance is expected. Attending lectures, paying attention, and participating will aid your success in inorganic chemistry. The more active your role is in your learning, the greater your chances for your success. In addition, minimizing distractions during lecture (such as cell phones ringing, pagers beeping, etc.) encourages a more productive learning environment. 2- Review your notes after lecture: Go over your notes after each lecture, and pay special attention to ideas or concepts, which may not have been clear to you during the lecture. 3- Get an overview of the lecture material before coming to lecture: Once you attend the lectures, and you review your notes after each lecture, you will have a good idea of the lecture material, which will come in the following lectures. Take a look at the lecture material to get an overview of the concepts and ideas, which will be coming. - Do the suggested homework: Completing the suggested homework helps you to gain experience with a greater variety of problems and exercises, and also allows you to identify possible areas of difficulty. Also, be aware that listening to an idea being explained or watching a problem being solved is not the same as applying the idea yourself or solving the problem yourself. 5- Form study groups: Forming study groups is a great way to learn the material and to help one another learn the material. 6- Ask questions: Don t be afraid to ask questions about concepts or ideas that you might have difficulty with. You can ask in class, because there is always a good chance that someone else has the same question, or you get help with your questions out of class. 7- Keep up with the course material: It is very difficult to catch up with the material in chemistry once you get behind, so try your best to keep up! 3
Tentative Lecture Schedule: It is not definite and will be subject to change as the semester progresses. Month Monday Wednesday 28 Chapter 1 30 Chapter 1 Aug The Electronic Structure of the Atom: A Review The Electronic Structure of the Atom: A Review 6 Chapter 2 Labor Day An Overview of the Sep 11 Chapter 2 An Overview of the Periodic Table 18 Chapter 3 25 Chapter Metallic Bonding Periodic Table 13 Chapter 3 20 Chapter 3 27 Exam 1 Oct 2 Chapter 5 Ionic Bonding 9 Chapter 6 Inorganic Thermodynamics 16 Chapter 7 Solvents, Solutions, Brønsted-Lowry Acids and Bases 23 Chapter 8 Chapter 5 Ionic Bonding 11 Chapter 6 Inorganic Thermodynamics 18 Chapter 7 Solvents, Solutions, Brønsted-Lowry Acids and Bases 25 Chapter 8 30 Chapter 8 1 Exam 2 Nov Dec 6 Chapter 9 Periodic Trends 13 Chapter 19 Transition Metal Complexes 20 Exam 3 27 Chapter 23 Exam 8 Chapter 9 Periodic Trends 15 Chapter 19 Transition Metal Complexes 22 Chapter 23 29 Chapter 23 6 Class Discussion Comprehensive Final Exam: Wednesday, December 13 th, 1:15 pm - 3:00 pm, worth 25% that can be counted toward your final grade if you choose to take it. The exam will be held in the same venue that lectures are held.
UTRGV Policy Statements STUDENTS WITH DISABILITIES: Students with a documented disability (physical, psychological, learning, or other disability which affects academic performance) who would like to receive academic accommodations should contact Student Accessibility Services (SAS) as soon as possible to schedule an appointment to initiate services. Accommodations can be arranged through SAS at any time, but are not retroactive. Students who suffer a broken bone, severe injury or undergo surgery during the semester are eligible for temporary services. Brownsville Campus: Student Accessibility Services is located in Cortez Hall Room 129 and can be contacted by phone at (956) 882-737 (Voice) or via email at ability@utrgv.edu. Edinburg Campus: Student Accessibility Services is located in 108 University Center and can be contacted by phone at (956) 665-7005 (Voice), (956) 665-380 (Fax), or via email at ability@utrgv.edu. MANDATORY COURSE EVALUATION PERIOD: Students are required to complete an ONLINE evaluation of this course, accessed through your UTRGV account (http://my.utrgv.edu); you will be contacted through email with further instructions. Students who complete their evaluations will have priority access to their grades. Online evaluations will be available: Fall 2017 Module 1 Oct. 5 Oct. 11 Fall 2017 Module 2 Nov. 29 Dec. 5 Fall 2017 (full semester) Nov. 15 Dec. 6 ATTENDANCE: Students are expected to attend all scheduled classes and may be dropped from the course for excessive absences. UTRGV s attendance policy excuses students from attending class if they are participating in officially sponsored university activities, such as athletics; for observance of religious holy days; or for military service. Students should contact the instructor in advance of the excused absence and arrange to make up missed work or examinations. SCHOLASTIC INTEGRITY: As members of a community dedicated to Honesty, Integrity and Respect, students are reminded that those who engage in scholastic dishonesty are subject to disciplinary penalties, including the possibility of failure in the course and expulsion from the University. Scholastic dishonesty includes but is not limited to: cheating, plagiarism (including self-plagiarism), and collusion; submission for credit of any work or materials that are attributable in whole or in part to another person; taking an examination for another person; any act designed to give unfair advantage to a student; or the attempt to commit such acts. Since scholastic dishonesty harms the individual, all students and the integrity of the University, policies on scholastic dishonesty will be strictly enforced (Board of Regents Rules and Regulations and UTRGV Academic Integrity Guidelines). All scholastic dishonesty incidents will be reported to the Dean of Students. SEXUAL HARASSMENT, DISCRIMINATION, and VIOLENCE: In accordance with UT System regulations, your instructor is a Responsible Employee for reporting purposes under Title IX regulations and so must report any instance, occurring during a student s time in college, of sexual assault, stalking, dating violence, domestic violence, or sexual harassment about which she/he becomes aware during this course through writing, discussion, or personal disclosure. More information can be found at www.utrgv.edu/equity, including confidential resources available on campus. The faculty and staff of UTRGV actively strive to provide a learning, working, and living environment that promotes personal integrity, civility, and mutual respect that is free from sexual misconduct and discrimination. COURSE DROPS: According to UTRGV policy, students may drop any class without penalty earning a grade of DR until the official drop date. Following that date, students must be assigned a letter grade and can no longer drop the class. Students considering dropping the class should be aware of the 3-peat rule and the 6-drop rule so they can recognize how dropped classes may affect their academic success. The 6-drop rule refers to Texas law that dictates that undergraduate students may not drop more than six courses during their undergraduate career. Courses dropped at other Texas public higher education institutions will count toward the six-course drop limit. The 3-peat rule refers to additional fees charged to students who take the same class for the third time. 5