Make your own free website on








7:30 AM







8:00 AM







8:30 AM







9:00 AM


Physics 340


Physics 340


Physics 340

9:30 AM


10:00 AM





10:30 AM







11:00 AM







11:30 AM







12:00 PM


Physics 390


Physics 390


Physics 390

12:30 PM




1:00 PM




Physics 341


1:30 PM


Computer Lab




2:00 PM





2:30 PM





3:00 PM





3:30 PM



4:00 PM




4:30 PM






5:00 PM





5:30 PM






6:00 PM






6:30 PM






7:00 PM






7:30 PM






8:00 PM






8:30 PM






9:00 PM






9:30 PM






10:00 PM






10:30 PM






11:00 PM






11:30 PM







Physics 340:  Waves, Heat, and Light.

This course is the third in a three-term introductory physics sequence, and is required of all physics concentrators. The topics covered in this course include thermodynamics, light and optics, and special relativity. The Wave equation is treated in detail. The class meets in lecture, with applications and demonstrations of the topics covered.


GOALS: This course provides an introduction to Thermodynamics, Waves, Optics,  and the Theory of Relativity. These topics, on the borderline between classical and modern physics, are essential for understanding a large fraction of physical phenomena. In addition to filling out your knowledge of classical physics topics that were not covered in earlier courses, you will be prepared for further study of   more modern topics, both for Physics 390 (Modern Physics) and for 400 level courses. The class will meet as a lecture group


Physics 341:  Waves, Heat, and Light Lab.

 is a laboratory course intended to accompany Physics 340 and provide a perspective on physics as an experimental science. The experiments performed cover topics that include temperature measurement, black body radiation, optics, interference, diffraction, and the speed of light. Evaluation is based on participation and performance in the laboratory classes, and on written laboratory reports.


Physics 390:  Introduction to Modern Physics.

This course is a quantitative introduction to modern physics and includes a review of special relativity, the relationship of particles and waves, the Schrödinger equation applied to barrier problems, atomic structure and the interpretation of quantum numbers, the exclusion principle and its applications, structure of solids. This course includes a survey of the topics and techniques in several subfields of physics, including Solid State, Atomic, Nuclear, Particle Physics, Astrophysics and Cosmology. The class will meet as a lecture group.  Applications of the principles will be considered in the lecture section on a regular  basis. 


EECS 370:  Introduction to Computer Organization.

Computer organization will be presented as a hierarchy of virtual machines representing the different abstractions from which computers can be viewed.  These include the logic level, microprogramming level, and assembly language level. Lab experiments will explore the design of a micropragrammed computer. Lecture and lab.


EECS 492:  Introduction to Artificial Intelligence.

Fundamental concepts of AI, organized around the task of building computational agents. Core topics include search, logic, representation and reasoning, automated planning, decision making under uncertainty, and machine learning.


Red indicates that this time should be reserved for transportation to or from north campus.


At work in the computer lab