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An introduction to music theory course. Music theory fundamentals will be taught utilizing voice (singing) and an instrument in hand. Knowledge of the piano keyboard will be learned and utilized. Curriculum will span the harmonic series, circle of 5ths, scales and chords to ear training, harmonic and rhythmic dictation, and beginning composition. Score reading, listening, and analysis will include music of composers from diverse ethnic, racial, sexual, and cultural backgrounds. Course will include singing, aural, and listening components as well as written work.

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.

An intermediate review of theory based on a broad range of pop, classical, and jazz songs from the last centuries and from across the world. We’ll start with a primer on scales, intervals, and basic chordal moves such as the rhythm changes, then progress to chromaticism, modulation, and extended triadic harmonies.

Chemistry 3 focuses on the nature and pathways of organic reactions: what the steps are, how we experimentally determine them, and how we can use them to solve practical problems, such as the synthesis of a drug, or understanding the action of an enzyme. Emphasis will be using the general principles of nucleo- and and electrophilicity to provide a logical framework for understanding substitution, addition, elimination and reactions involving carbonyl groups. Chemical kinetics will also be a topic of study because of the insights it provides for reaction mechanisms.

This course is the first of a four-course chemistry sequence covering general, organic and biochemistry. Students do not need to take the entire sequence. We will focus on introductory chemical principles, including atomic theory, classical and quantum bonding concepts, molecular structure, organic functional groups, and the relationship between structure and properties. The class will have lecture/discussion meetings at which we will critically examine the major concepts of reading assignments, discuss articles, and review some of the current developments of the field.

This course will serve as an introduction to working with circuits in a lab setting. We will learn about the relatively simple rules necessary for working with analog circuits and how those rules can be used to build objects of growing complexity. We will then move on to understanding how to build circuits that can measure properties of and interact with their surroundings.

In this class we will explore the art and practice of scientific communication. This course is inspired by the work of Edward Tufte as well as a lifetime of experience in scientific research and presentation. Our aim is to learn how to create elegant explanations of complex ideas using pictures, charts, numbers and words. We will analyze and produce displays for use in journalism, research publications and scientific presentations, as well as other art forms that inspire multifaceted understanding.

Scanning electron microscopes are a fundamental tool in the physical and life sciences. When equipped with an X-Ray spectrometer, a SEM can provide rapid physical and chemical data of specimens on extremely small scales. This class with cover the theory and practical applications of SEM imaging and analysis for advanced science students who have their own research interests. Students will be expected to develop and conduct an independent research project through this class.

In this course, students will learn the fundamentals of observing the night sky with a telescope. This course will teach how to find the basic constellations and how to use both manual and computerized telescopes to point at celestial objects in the night sky. While there will be some classroom time to teach fundamental concepts, the vast majority of the class will consist of practical, hands-on time with telescopes at Stickney Observatory.

Physics is the study of what Newton called “the System of the World.” To know the System of the World is to know what forces are out there and how those forces operate on things. These forces explain the dynamics of the world around us: from the path of a falling apple to the motion of a car down the highway to the flight of a rocket from the Earth. Careful analysis of the forces that govern these motions reveal countless insights about the world around you and enable you to look at that world with new eyes.

The comforts and amenities of modern life require vast inputs of energy to power an industrial society. While the benefits of industrial society are significant, if unevenly shared, the environmental costs of energy extraction and production are significant. These environmental costs are also unevenly shared.

This course explores the life, works, and revolutionary contributions of Harry Partch (1901–1974), one of the most original and influential American composers of the 20th century. Partch was a pioneer of microtonal music and developed a unique 43-tone scale, which led him to construct his own instruments to realize his visionary compositions. Students will examine Partch’s unconventional approach to tuning, his rejection of equal temperament, and his philosophy of music as an integrated theatrical and corporeal experience.