[SC] The assertion of group identities, based on language, region, religion, race, gender, sexuality, and class, among other variables, has increasingly animated politics cross-nationally. However, the extent to which identities become politicized varies enormously across time and place. We will explore what it means to describe an identity as political. This exercise entails assessing the conditions under which states, civil societies, and political societies recognize certain identities while ignoring or repressing others.

[IL] This course considers a fundamental issue that faces all democratic societies: How do we decide when and whether to include or exclude individuals from the rights and privileges of citizenship? In the context of immigration policy, this is an issue of state power to control boundaries and preserve national identity. The state also exercises penal power that justifies segregating and/or denying privileges to individuals faced with criminal sanctions.

Independent Reading Course. A full course.

Fall and spring semester.

A development of Maxwell’s electromagnetic field equations and some of their consequences using vector calculus. Topics covered include: electrostatics, steady currents and static magnetic fields, time-dependent electric and magnetic fields, and the complete Maxwell theory, energy in the electromagnetic field, Poynting’s theorem, electromagnetic waves, and radiation from time-dependent charge and current distributions. Three class hours per week.

Requisite: PHYS 117 or 124 and PHYS 227 or consent of the instructor. Fall semester. Professor Hall.

This course begins with the foundation of classical mechanics as formulated in Newton’s Laws of Motion. We then use Hamilton’s Principle of Least Action to arrive at an alternative formulation of mechanics in which the equations of motion are derived from energies rather than forces. This Lagrangian formulation has many virtues, among them a deeper insight into the connection between symmetries and conservation laws.

The course will present the mathematical methods frequently used in theoretical physics. The physical context and interpretation will be emphasized. Topics covered will include vector calculus, complex numbers, ordinary differential equations (including series solutions), partial differential equations, functions of a complex variable, and linear algebra. Four class hours per week.

Requisite: MATH 121 and PHYS 117/124 or consent of the instructor. Fall semester.  Professor Loinaz.

The theories of relativity (special and general) and the quantum theory constituted the revolutionary transformation of physics in the early twentieth century. Certain crucial experiments precipitated crises in our classical understanding to which these theories offered responses; in other instances, the theories implied strange and/or counterintuitive phenomena that were then investigated by crucial experiments.