Spring 2026 Course Search

Building on structural and reactivity insights developed in Chemistry 1, this course delves into molecular structure and modern theories of bonding, especially as they relate to the reaction patterns of functional groups. We will focus on the mechanisms of reaction pathways and develop an understanding for how those mechanisms are experimentally explored. There will be numerous readings from the primary literature, including some classic papers that describe seminal experiments.

Chemicals often get a bad rap, from headlines warning of "toxic chemicals" to marketing labels that boast "chemical-free or all natural" products. But what are we really afraid of? In this course, we’ll use chemophobia as a starting point to explore the fundamental principles of chemistry. Why do certain substances evoke fear, and are those fears grounded in science? Through a combination of lectures, discussions, and hands-on experiments, students will critically examine the chemical nature of  us, everyday substances, from food and water to cosmetics and cleaning agents.

This course asks each student to work in a self-directed way among a community of critical thinkers. Finding one’s voice, as a maker, requires research sources of influence and inspiration. Students are expected to undertake a significant amount of work outside of regular class meetings. At this point in your Visual Arts Education you must be able to represent serious attention and dedication to your work, and prove that you can manage your time and energy towards advanced inquiry.

This course focuses on the additive construction methods essential to contemporary sculpture. Students will embark on independent projects that hone their skills in constructing armatures and exploring innovative skinning techniques. Throughout the term, participants will learn to build and manipulate forms using primarily additive processes, developing their own sculptural vocabulary in a studio environment. There will be two personal independent projects in this class that will ultimately converge into a dynamic, large-scale collaborative sculpture.

In this course we will focus on cutting and welding non-ferrous metals. Hand cutting and CNC assisted plasma cutting will be the methods in which stock will be cut. The fabrication processes will begin through brazing methods (acetylene) for connecting non-similar metals. There will also be instruction on pinpoint forging as well as the safe use of the blacksmithing forge in the Sculpture department. We will then advance to learning the skills involved in using the GTAW welders for non-ferrous welding.

This course is a seminar focusing on films that were made by filmmakers and collectives which saw themselves as inaugurating a new kind of filmmaking modeled neither on the commercial American filmmaking, nor on the European “Auteur” Cinema, instead crafting a third position, a cinema that was implicated in anti-capitalist and anti-imperialist struggles of the time. These works challenged ideas of authorship, questioned the role of the filmmaker in political transformation, and proposed alternatives to the forms of production that filmmaking made use of.

These technical applications, can lead you to a concept due to the design/practicality of said application.

Part of the Chemistry 1-4 suite, this will examine the energetics of chemical changes. Focusing on the enthalpic and entropic contributions to free energy change, we will examine how energy or work can be extracted from chemical systems and how these systems behave as they tend toward equilibrium. Types of equilibria to be covered will include acid/base, solubility, phase change, metal-ligand interactions and oxidation/reduction. The energetics of electron transfer reactions will be examined along with the practical considerations of making use of such reactions to power electric devices.