Chem321:Syllabus
Syllabus: THE SUSTAINABLE WORLD
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Syllabus for Chemistry 321, Summer 2011
General
Is it possible to maintain or improve our standard of living without depleting the world's resources and destroying our environment? Sustainable development is widely regarded as a responsible approach to economic growth- yet this is only possible if we can find new sustainable methods of using our resources.
In this one-semester, non-majors lecture course, sustainability is explained in terms of the Earth's carrying capacity and matter/energy flow, as a manifestation of the basic laws of chemistry. The course considers the roles of science, technology, government and business in shaping environmental policies and meeting the challenges of sustainability. It also examines different approaches that industry can use to produce materials and goods while minimizing environmental impact. The chemical industry is used as an example of how manufacturing must change, and how this has (or has not) been achieved in practice.
- Format
Online lecture/seminar/discussion combination.
- Prerequisites
One semester of college-level science.
- Instructor
- Martin A. Walker, Stowell 305, SUNY Potsdam
- Telephone: +1 (315) 267-2271
- Email: walkerma@potsdam.edu
- Class wiki: http://pluto.potsdam.edu/chemwiki/index.php/Chem321:Welcome (password required)
- Office hours: 10-11am Mon-Fri unless posted otherwise
- Text
"An Introduction to Sustainable Resource Use" by Callum Hill, Earthscan Publications Ltd., 2011, ISBN 9781844079278. Order a copy from Amazon, Barnes & Noble or Borders. This will be greatly supplemented by readings from other sources.
- Technology needs
You will need a computer with a good internet connection and a modern browser such as Mozilla Firefox or Google Chrome. To get the full benefit from the slide presentations, you will need Microsoft Powerpoint or its free equivalent, OpenOffice Impress (from http://www.openoffice.org/)
Course wiki and Blackboard site
A wiki is a user-editable website, and the course wiki will be the main "classroom" for this online course. This will be where you look at lectures, participate in discussions and contribute assignments. Writing on the wiki is very simple, but we will have a training session at the start of the semester. You will be expected to check in on the wiki at least once every weekday (unless this is waived by the instructor). Students will be broken up into groups of five or less, and each group will participate in a thrice-weekly discussion for fifty minutes (at a time that is mutually agreed by the group). The online version of any document supersedes any offline version (PDF, Word file).
Blackboard is a restricted-access course management system, and the Blackboard site for CHEM 321 will be used as a supplementary repository for alternative versions (e.g., PDF or Microsoft Word) of many documents, including this syllabus. It will also contain the only version of the grade book, where your grades (marks) are only visible to you and your instructor.
Schedule
This is available on the wiki at http://pluto.potsdam.edu/chemwiki/index.php/Chem321:Schedule. This includes links to weekly schedules to guide you through the course, beginning with week one. In addition, on the wiki there is a "daily tasks" page updated each day, where you will be checking in.
Content
For details on the content, please see the schedule, which lists the course units. The course approaches environmental problems, sustainability and manufacturing from a scientific perspective. No formal chemistry background is required. General chemical concepts will underpin nearly all of the course material, but details of chemical reactions will not typically be discussed.
There is a series of course units, which are a set of slide presentations on the course material, roughly one per week. These presentations take the place of lectures in a traditional college course. They should be studied carefully, because many of the assignments and other graded work will be based on this material. There is a Powerpoint version for study, and a PDF version for printing (four slides per page). These presentations contain interactive quizzes at appropriate points, to help you to assimilate the content. This material will be enhanced by readings from the course textbook as well as from other sources. The course content for each week is given in the course schedule, with more details given on the individual week's page. Topics covered include: Sustainable development, government policies, economics of sustainability, science & technology, manufacturing, waste, energy, agriculture, mining, environmental management, green chemistry, green engineering, and planning for the future.
- Learning objectives
By the end of the course, the student will have demonstrated (through assessments outlined below) a basic understanding of the core concepts of sustainability and sustainable development, particularly from a scientific perspective. The student will be able to show knowledge of the impact of sustainability on science & technology, manufacturing, waste, energy, agriculture, mining and environmental management, as well as a basic knowledge of thermodynamics and chemical laws. The student will have participated in a role-playing scenario, through which (s)he will present work that successfully integrates the "book learning" with real-world problems.
- General education component
This course is designed to provide the students with an introduction to the physical sciences. As such, the course incorporates the scientific method, both explicitly as coursework, and implicitly in assignments where students need to develop their own hypotheses and defend them. The environment provides many excellent case studies where students can examine data, explore causal relationships (Does human activity cause climate change?), and evaluate alternative hypotheses. Science and technology, including their differences and codependence, are studied explicitly as one of the 14 course units.
- Grading
The final grade will be based upon a combination of five assignments (6% each), one paper presenting a case (10%), a term paper on a sustainable technology (15%), weekly discussions (20% total), a role-playing scenario (5%) and a final exam (20%). SUNY Potsdam uses a point system for final grades, ranging from 4.0 (A, excellent) down to 0.0 (F, fail); the minimum pass grade is 1.0, though a 2.0 grade may be needed if the course is to count as an elective for a major. Please see http://www.potsdam.edu/offices/registrar/grades/index.cfm for more details.
- Assignments
The five problem sets and the papers will be done via the wiki, and after submission the papers will be visible to the entire class. Papers will be submitted to the wiki under the Creative Commons Share-Alike license and may be published more widely (though they can be deleted upon request by the student). Work may initially be done offline in word processing software such as Microsoft Word, but it should be uploaded and formatted for the wiki in order to receive a grade.
- Term Paper
You will be expected to write and present on a paper of around 2000 words on one particular green product or process. The product or process should already exist and should have reached at least the prototype stage.
- Role-play/Case presentation
Students will take on various roles on the environmental committee of a fictitious chemical manufacturing company. One assignment will involve at least two "virtual meetings" taking place during the regular discussion timeslot, when environmental problems will be reviewed and an environmental management system will be discussed. You will also need to write a paper making the case for the company to invest in something to meet its sustainability goals. This part of the course aims to bring home the real-world problems of managing resources and designing a sustainable manufacturing enterprise.
- Discussions
Discussions on the specified topics will be held on the wiki at least three times a week. Each group will have one or more 50 minute time slot set aside (at a mutually acceptable time), so a group of us can all "talk" about the topic in real time. If we have a small class, we can hopefully find one single time slot; if the class is larger we may set up other times, but your attendance will only be required at least three times per week. Your grade will depend on your level of contribution. See the discussions page for more details at http://pluto.potsdam.edu/chemwiki/index.php/Chem321:Discussions
Disabilities
If you have a documented disability that may affect your ability to participate in the class, please let me know at the beginning of the course.
Finally
I am here to help! Please contact me if you are falling behind or experiencing other difficulties, and I will do what I can.