This course examines the making of modern politics in Western and Eastern Europe, tracing the development of nation-states, markets, and democratic institutions from the Middle Ages to the European Union. It sheds light on key questions driving contemporary political debates around the world: How are strong states built? What explains the success or collapse of democracies? When are revolutions successful? Why do some countries transition successfully to capitalism and democracy, while others do not?

Most humans live in territories that are controlled by a state. Why do different nations have different types of states? Why are some states more repressive than others, more war-prone than others, better promoters of development than others, more inclusive than others? How can we make sense of the varied reactions to state domination, ranging from active support to negotiated limits to apathy to vigorous contestation? Does globalization make states more or less democratic, more or less efficient, more or less able to promote development?

This course will explore the meaning of justice and its realization in everyday life. We will consider individuals’ perceptions of justice and the significance of the concept in the relationship between citizens and government. We will examine how social movements attempt to seek justice and how this quest for justice defines their strategies and goals. And finally we consider how efforts to seek justice are realized, delayed, or blocked in institutional settings, such as in workplace organizations, prisons, state bureaucracies, and the courts.

Independent reading 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 Friedman.

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 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.