PHYS 10901 
Astronomy w/Lab Instructor: Windsor Morgan Course Description:
Introduction to the modern concepts of the physical nature of the astronomical universe. Historical development of astronomical ideas and origin and evolution of the solar system. A terminal laboratory course for nonscience students. Three hours classroom, one twohour laboratory a week. This course will not count toward major requirements in physics.

1330:W TOME 105 0930:MWF TOME 115 
PHYS 10902 
Astronomy w/Lab Instructor: Catrina HamiltonDrager Course Description:
Introduction to the modern concepts of the physical nature of the astronomical universe. Historical development of astronomical ideas and origin and evolution of the solar system. A terminal laboratory course for nonscience students. Three hours classroom, one twohour laboratory a week. This course will not count toward major requirements in physics.

0900:TR TOME 105 1330:M TOME 105 
PHYS 13101 
Introductory Physics Instructor: David Mertens, Lars English Course Description:
An introduction to basic physics topics using the workshop method. This method combines inquirybased cooperative learning with the comprehensive use of computer tools for data acquisition, data analysis and mathematical modeling. Kinematics, Newton's Laws of motion, conservation laws, rotational motion, and oscillations are studied during the first semester. Additional topics in chaos or nuclear radiation are introduced. Basic calculus concepts are used throughout the course. Recommended for physical science, mathematics, and preengineering students and for biology majors preparing for graduate study. Three twohour sessions per week. Because of the similarity in course content, students will not receive graduation credit for both 131 and 141. Prerequisite: Completion of, or concurrent enrollment in, MATH 151 or 170.

0930:MWF TOME 101 
PHYS 13102 
Introductory Physics Instructor: Lars English Course Description:
An introduction to basic physics topics using the workshop method. This method combines inquirybased cooperative learning with the comprehensive use of computer tools for data acquisition, data analysis and mathematical modeling. Kinematics, Newton's Laws of motion, conservation laws, rotational motion, and oscillations are studied during the first semester. Additional topics in chaos or nuclear radiation are introduced. Basic calculus concepts are used throughout the course. Recommended for physical science, mathematics, and preengineering students and for biology majors preparing for graduate study. Three twohour sessions per week. Because of the similarity in course content, students will not receive graduation credit for both 131 and 141. Prerequisite: Completion of, or concurrent enrollment in, MATH 151 or 170.

1330:MWF TOME 101 
PHYS 14101 
Physics for the Life Sciences Instructor: Catrina HamiltonDrager Course Description:
Introductory, noncalculus physics, principally for life science and premed students. Topics include mechanics, thermodynamics, acoustics, optics, electricity, magnetism, and modern physics. Three twohour workshop sessions a week. Because of the similarity in course content, students will not receive graduation credit for both 131 and 141.

1030:F TOME 103 1030:MW TOME 115 
PHYS 14102 
Physics for the Life Sciences Instructor: Catrina HamiltonDrager Course Description:
Introductory, noncalculus physics, principally for life science and premed students. Topics include mechanics, thermodynamics, acoustics, optics, electricity, magnetism, and modern physics. Three twohour workshop sessions a week. Because of the similarity in course content, students will not receive graduation credit for both 131 and 141.

1330:F TOME 103 1030:MW TOME 115 
PHYS 20801 
Introductory Astrophysics Instructor: Catrina HamiltonDrager Course Description:
An introduction to the physical basis of astronomy, including discussion of the creation and evolution of the solar system, the stars, and galaxies. Astronomical measurement and units, and dynamical systems, such as binary star systems and star clusters, will be discussed. Similar to Physics 108 or Physics 110, but with additional emphasis on mathematical analysis of astrophysical phenomena. Prerequisite: 131 or 141 or permission of instructor.

1030:TR TOME 213 
PHYS 21101 
Vibrations, Waves & Optics Instructor: Hans Pfister Course Description:
Completion of both PHYS 211 and PHYS 212 fulfills the WR Requirement. The physics of periodic motions, oscillating systems, resonances, propagating waves and optical phenomena. The course is centered around various projects such as the investigation of a kinetic art apparatus, the study of a tunedmassdamper in a highrise building, an examination of the Fourier spectrum of different musical instruments, and the dispersion relation for a very large slinky. The course culminates with a presentation at either the "Rainbow Symposium" or the "Vision Symposium." Prerequisite: 131 and 132 or 141 and 142, and MATH 170 or permission of instructor. NOTE: Completion of both 211 and 212 fulfills the WID requirement.

1330:MR TOME 103 
PHYS 21301 
Analog & Digital Electronics Instructor: Brett Pearson, David Mertens Course Description:
Circuit design and the analysis of electronic devises. Modern digital and analog circuit elements, including diodes, transistors, op amps, and various integrated circuits, are used in amplifiers, power supplies, and logic circuits. Class and laboratory work are integrated during class time totaling up to seven hours per week. Students design and build projects at the end of the semester. Prerequisite: 132 or 142 or permission of instructor.

1330:TF TOME 217 
PHYS 31101 
Dynamics & Chaos Instructor: Lars English Course Description:
A projectoriented study of advanced classical mechanics using vector calculus and including an introduction to the analysis of chaotic systems. Topics might include particle dynamics in one, two and three dimensions; harmonic oscillators and chaos theory; central force motion; collisions and conservation laws; rigid body motion; and rotating coordinate systems. Possible examples of projects include projectile motion with air resistance; motion of a chaotic pendulum; and motion in a noninertial reference frame. Prerequisite: 211 and 282 or permission of the instructor. Normally offered every other year.

0900:TR TOME 213 
PHYS 31201 
Electrodynamics Instructor: Hans Pfister Course Description:
This course will investigate electrostatics, magnetostatics, and electrodynamics in vacuum and in matter. Maxwell's equations of electrodynamics are developed and explored in depth. Vector calculus is used throughout this course. Possible projects include the experimental study of capacitors, the force and torque on a magnetic dipole, and an exploration of Faradyinduced electric fields. Prerequisite: 211, 212 and 282, or permission of instructor. Normally offered every other year.

0930:MWF TOME 213 
PHYS 36101 
Light and Matter Instructor: Brett Pearson Course Description:
Topics to be selected from areas such as atomic, nuclear, plasma, or solid state physics, or modern optics and acoustics, or advanced electronics. Prerequisite: 211 and 212. Onehalf or one course credit.

1030:TR TOME 227 
PHYS 49101 
Senior Research Seminar Instructor: Robert Boyle Course Description:
Integration of theory and experiment in the conduct of research in contemporary physics or astrophysics, normally conducted in groups. The course emphasizes collaborative research, investigative techniques, and oral and written communication, and culminates in a colloquium presentation and a paper. Prerequisite: Physics major senior status. The two semester sequence (491 & 492 or 491 + Independent Research for candidates for honors in the major) are required for the major.

1030:MWF TOME 213 