Embedded systems sense, actuate, compute, and communicate to accomplish tasks in domains such as medical, automotive, and industrial controls. In this course, students will learn the fundamentals of using microprocessor-based embedded systems to solve problems in these domains. By the end of the course, students will be able to choose appropriate hardware based on application requirements, execute and optimize programs on simple microcontrollers, and interface these controllers to other subsystems.

Embedded systems sense, actuate, compute, and communicate to accomplish tasks in domains such as medical, automotive, and industrial controls. In this course, students will learn the fundamentals of using microprocessor-based embedded systems to solve problems in these domains. By the end of the course, students will be able to choose appropriate hardware based on application requirements, execute and optimize programs on simple microcontrollers, and interface these controllers to other subsystems.

Embedded systems sense, actuate, compute, and communicate to accomplish tasks in domains such as medical, automotive, and industrial controls. In this course, students will learn the fundamentals of using microprocessor-based embedded systems to solve problems in these domains. By the end of the course, students will be able to choose appropriate hardware based on application requirements, execute and optimize programs on simple microcontrollers, and interface these controllers to other subsystems.

Embedded systems sense, actuate, compute, and communicate to accomplish tasks in domains such as medical, automotive, and industrial controls. In this course, students will learn the fundamentals of using microprocessor-based embedded systems to solve problems in these domains. By the end of the course, students will be able to choose appropriate hardware based on application requirements, execute and optimize programs on simple microcontrollers, and interface these controllers to other subsystems.

Embedded systems sense, actuate, compute, and communicate to accomplish tasks in domains such as medical, automotive, and industrial controls. In this course, students will learn the fundamentals of using microprocessor-based embedded systems to solve problems in these domains. By the end of the course, students will be able to choose appropriate hardware based on application requirements, execute and optimize programs on simple microcontrollers, and interface these controllers to other subsystems.

Second semester of a full year course for majors in the life sciences. Topics include plant and animal structure and physiology, evolution, and ecology. Prerequisite: BIOLOGY 151 with grade of C or better.

Structure and function of biological molecules, especially proteins, lipids and carbohydrates. Important concepts include bioenergetics, biological catalysis, and metabolic pathways as interacting regulated systems. Having taken a full year of organic chemistry (or second semester concurrently) is strongly recommended.

First of two semester sequence. Creative animation techniques for motion graphics, film, video, music and technology. Animation software and professional compositing programs are used. Storyboarding, production design scheduling and production issues are incorporated. Emphasis is on creativity and professionalism.

Digital media is a key creative tool for artists and designers. Lectures, readings, and tutorials introduce students to contemporary design practice, including: digital typography, page design and layout, vector-based graphics, and design for the screen. Design projects range from purely textual, single and multi-page document design, to problems that require the successful integration of typography, image, and basic interaction. Students explore how context and form affect meaning and message through the creation of conceptual solutions.

This beginning course will focus on analog capture, film development and printing. As you develop the skills needed to create images you will apply them to concepts and projects. In addition to slide lectures and reviews of projects we will also look at a range of historical and contemporary international artists, whose diverse practices conceptually and theoretically situate assigned projects.