Philosophy 12
Logic and Decision Making
Winter 2004, Tues. Thurs.:11:00-12:20
Professor: William Bechtel
Office: HSS 8076
Telephone: 822-4461
Office Hours: Wednesday, 2:00-4:00 and by appointment
Email: phil12@mechanism.ucsd.edu
Website: http://inquiry.ucsd.edu
Sections |
TA |
Office |
Contact |
Office hours |
A. Monday, 3 pm |
Sophia Efstathiou |
HSS 8085 |
Monday, 1:00-3:00 |
|
B. Monday, 4 pm |
Sophia Efstathiou |
HSS 8085 |
Monday, 1:00-3:00 |
|
C. Thursday, 5 pm |
Lisa Damm |
HSS 8073 |
Monday, 11:00-1:00 |
|
D. Thursday, 6 pm |
Lisa Damm |
HSS 8073 |
Monday, 11:00-1:00 |
1. Course Description
Here are some of the questions we will be addressing in this course: (1) What makes for a good piece of reasoning in science? (2) Can you ever be absolutely certain of the truth or falsity of a scientific hypothesis? (3) How objective is observation? (4) What might we learn by systematic observation? (5) When can we learn from discovering correlations? (6) What does it take to establish a causal relationship? (7) Do physics, psychology, and economics follow different rules? (8) What are mechanisms and how do scientists discover them?
This course provides an introduction to logical reasoning and decision making by focusing on the sciences. We will emphasize active engagement in the kinds of reasoning and decision making which scientists us in testing hypotheses, especially through on-line exercises and demonstrations. The goals of the course are for students to understand the logical and statistical principles by which scientific claims are created and evaluated and to develop a critical appreciation for the methods by which knowledge is acquired in science. You should leave this course with a better ability to distinguish good from poor reasoning and decision making.
2. Course Materials
All course materials are on the course website at http://inquiry.ucsd.edu. The modules found there include text, animation, and interactive exercises. Some modules have questions to answer at the end. In order to access the website, you will need to procure a login and password from your instructor. All activity on the site is recorded and logged, including answers to question sets attached to the modules. Completion of the on-line exercises is a requirement of the course.
3. Course Requirements
For each module, students are expected to complete the module and any questions attached to it, before attending classes. Attendance in class and sections is required. Final grades will be based 30% on the mid-term, 35% on the final exam, 20% on two-short (1- 2 pages) written assignments, 10% for participation and activities (including quizzes) in sections, and 5% for timely completion of the web-based exercises and questions.
4. Email List
There are email distribution lists for this course, one for each section:
seca@mechanism.ucsd.edu; secb@mechanism.ucsd.edu; secc@mechanism.ucsd.edu;
It is required that you subscribe to the list for your discussions section. Do it IMMEDIATELY. You can always unsubscribe later if you drop the course or change sections. The purpose of the list is to allow me and the TAs to distribute information regarding due dates for assignments, changes of schedule, etc. Some of this information is crucial, and some of it may be distributed early on. To subscribe, you simply need to send an email message to the following address: listserv@mechanism.ucsd.edu (the message must be sent from the account that you want to be subscribed). The body of the message should contain one line
subscribe secX
where X is replaced by the letter of your section. After you send the subscribe request, you will receive a reply from majordomo@mechamism.ucsd.edu that will ask you to confirm your request. Follow the directions in this message to confirm you subscription. If you later want to remove yourself from this list, send another one-line email to listserv@mechanism.ucsd.edu:
unsubscribe secX
Only the TAs and I have authorization to send mail to this list. There should be no spam. If you receive mail from this list that is not from one of us, be assured that I will as well and will take measures to block further abuse.
5. Schedule of Classes and Web Assignments
Note: This schedule of reading assignments is tentative and subject to revision. Items in italics are modules on the course website. You should complete these, including any attached questions, before the assigned class (although subsequent review is certainly encouraged).
January 6: Introduction: The Inquiry Website
January 8: Elements of science
Introduction to Scientific Reasoning, Statements: the atoms of reasoning; Justification and argument
January 13: Valid arguments
Some basic valid argument forms
January 15: Confirmation, falsification, and fallibility
Evidential relations; The fallible character of human knowledge
January 20: Observation, categories, and taxonomy
Observation and learning to see
January 22: Categorizing phenomena
Categories and taxonomy
January 27: Observational research
Observational research
January 29: Distributions and samples
Variables and measurement
February 3: Midterm Exam
February 5: Predicting relationships between variables
Predicting relations between variables
February 10: Predicting from correlations
When variables are correlated
February 12: Differences between means
When variables are not correlated; When groups differ
February 17: Correlation and causation
Correlational studies as tests of causal claims; Correlational vs. experimental research
February 19: Causal explanation
Causal explanation
First 1-2 page written assignment due
February 24: Reasoning about and graphing causes
Reasoning about causation; Causal reasoning with directed graphs
February 26: Causality and experiments
Testing causal claims experimentally
March 2: Causation when experiments are not possible
When randomized experiments are not possible
March 4: Mechanism and mechanistic explanation
Entities and activities organized to produce a phenomenon
Second 1-2 page written assignment due
March 9: Organization and levels of organization
Levels of organization within mechanisms; Describing and portraying mechanisms
March 11: Discovering and modeling mechanisms
Experimenting on mechanisms; Denying phenomena when mechanisms cannot be conceived; Modeling strategies