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The course will be for sustained work on an animation or projection design project, and should be a space for both experimentation, ambition and consistent endeavor. The first half of the semester will be concerned with conceptualizing and framing the world of the animations or projections, by research, drawings, investigation, imagining. The second half will be creating the animation or projections.

The class will be both looking at abstraction as well as more figurative based work. The class will include a mixture of creating assemblages in a variety of means and materials, and using both digital and analogue means from paint, to sand to animated forms. Objects will be cut out with scissors or the laser cutter, animated with pins or digital pins in software (After Effects), layers will be used to create depth in three dimensions, a multiplane or using the Z axis.

The class will be concerned with animating inanimate objects by primarily stop motion.  Locations will be constructed, objects to animated formed, and lighting explored in order to create the imaginary world. A variety of filmmakers and techniques will be looked at during the course of the semester, with individual research undertaken and presented.  Students will be expected to produce a variety of short projects over the first seven weeks based on current affairs and future worlds, followed by a longer more sustained project.

This foundational class covers modes of reasoning used in quantitative sciences and mathematics. While learning the art of mathematical modeling, i.e. translating the physical systems/real-life situations into mathematics, we will apply problem solving and practice effective communication of mathematics.

Differential equations are a powerful and pervasive mathematical tool in the sciences and are fundamental in pure mathematics as well. Almost every system whose components interact continuously over time can be modeled by a differential equation, and differential equation models and analyses of these systems are common in the literature in many fields including physics, ecology, biology, astronomy, and economics.

I would (and will) argue that Newton's Principia is the most important book yet written. It is certainly the most important book that a vanishingly small number of people have actually read.

Since its inception, film has been used for propaganda - disseminating information with a particular slant, whether subtle or obvious - by regimes and independent players across the political spectrum. As the means of production and circuits of distribution become ever more accessible to individuals, we have moved from an era of focused agitprop into a new era of diffused disinformation.

Together with calculus, linear algebra is one of the foundations of higher-level mathematics and its applications. This is NOT just the algebra you know from high school. There are several perspectives one can take on linear algebra: it is a method for handling large systems of linear equations, it is a theory of linear geometry (including in dimensions larger than three), it is matrix algebra, and it is a theoretical structure that appears throughout mathematics, physics, computer science, and statistics.

In the eighteenth and nineteenth centuries, mathematics underwent a vast expansion, into new, exciting, and increasingly counter-intuitive realms. The subject risked mystification and mutual incomprehensibility between experts in different sub-fields. In the first part of the twentieth century, a group of French mathematicians, under the pseudonym Bourbaki, undertook an ultimately successful program to use the foundation of set theory to put all of mathematics onto a common conceptual and logical foundation.