Global Arc

A course in fundamental physics that covers classical mechanics, fluid mechanics, basic thermodynamics, sounds, and waves. Meets premedical requirements. One lecture, three classes, one three-hour laboratory.

Continuation of 101. A course in fundamental physics that covers electricity, magnetism, and an introduction to the quantum world. Meets premedical requirements. Two 90-minute lectures, one preceptorial, and one three-hour laboratory.

The physical laws that govern the motion of objects, forces, and forms of energy in mechanical systems are studied at an introductory level. Calculus-based, primarily for engineering and science students, meets premedical requirements. Some preparation in physics and calculus is desirable; calculus may be taken concurrently. One demonstration lecture, three classes, one three-hour laboratory.

Continuation of 103. Electromagnetism from electrostatics, DC and AC circuits to optics, and topics of modern physics are treated at an introductory level. Some preparation in physics and calculus is desirable; calculus may be taken concurrently. Calculus-based, primarily for engineering and science students, meets premedical requirements. One demonstration lecture, three classes, one three-hour laboratory.

PHY105 is an advanced first year course in classical mechanics, taught at a more sophisticated level than PHY103. Care is taken to make the course mathematically self contained, and accessible to the motivated physics student who may not have had exposure to an introductory college level physics course. The approach of PHY105 is that of an upper-division physics course, with more emphasis on the underlying formal structure of physics than PHY103, including an introduction to modern variational methods (Lagrangian dynamics), with challenging problem sets due each week and a mini-course in Special Relativity held over reading period.

Parallels 104 at a more sophisticated level, emphasizing the unification of electric and magnetic forces and electromagnetic radiation. To enter this course, students must have done well in 103 or 105. 103 students must attend the lectures on special relativity given in reading period as part of 105. Three lectures, one class, one three-hour laboratory.

A new one semester physics course designed specifically for life science majors. Selected topics in physical theory and experiment will be presented and highlighted using a range of examples.

PHY 109 will focus on physics concepts, methodologies, and problem solving techniques, with a selection of topics drawn from the PHY 103 and 104 curriculum. PHY 109 has no lab component. The goal of the course is a mastery of mechanics (PHY 103), together with the related mathematical tools, and a first exposure to concepts from electricity and magnetism (PHY 104). This is the first course in a two-course sequence, concluding with PHY 110 in the summer term.

The content covered in this course is the same as that covered in PHY104, but compressed into 8 summer weeks, and with the assumption of proficiency in problem solving methods covered in PHY109. This calculus-based course is primarily geared to students majoring in engineering and physics, but is also well suited to majors in other sciences. The goal of the course is to develop an understanding of the fundamental laws of physics, in particular electricity and magnetism, with applications to electronics, optics, and quantum computing.

An introduction for non-scientists to what is known and not known about gravity and the evolution of the universe. The course will trace the discoveries that led to current understanding and the puzzles we hope to solve in the 21st century. Each class will consist of a combination of lecture, discussion, hands-on demonstrations, and group activities.