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This course will look into the use of the kiln as an integral tool and part of the creative process in ceramic art. We will explore various different kilns and firing techniques, learning the roles of fire and atmosphere in transforming glaze components into desired surfaces. We will also discuss the history of kiln technology and how it has influenced the development of wares, kiln building, and the theoretical basis for kiln design and firing. Students will be expected to develop and produce work independently outside of class time for use in the firings.

Sculpture and vessels are realized through an exchange between the medium and the self. The class will begin with the question:

What is Sculpture?

What is a Vessel?

This lab class is structured for students who have completed CER2208 CUPS: Slip Casting and Mold Making (or equivalent introductory mold making and slip casting courses) to achieve independent production goals to create a series of  ceramic functional ware (cups). The two-hour weekly lab will be guided by the faculty so that students can receive technical guidance and adequate support to establish their studio production practices and expand their knowledge and creative capacities. 

Understanding the form of a container is an integral part of the aesthetic reconfiguration of nature in Ikebana. The concept of activating an interior architectural space with collected cut plants and their arrangement stems from ancient Japanese animism. The container is considered a mysterious receptacle for the sustainability of life and acts as a symbolic focal point in its spatial context.

Research questions in cell biology and biochemistry often require the ability to study the proteins at the heart of the inquiry.  This course will give students hands-on experience quantifying proteins, detecting protein expression, measuring enzymatic activity, assessing protein-protein interactions, purifying proteins, and visualizing fluorescently-labeled proteins in vivo.

This rigorous course provides a comprehensive introduction of the nervous system, including its structure, function, and development. Students will explore the principles of the cellular and molecular mechanisms that allow neurons and other specialized nervous cells to detect, encode, and transmit information; including signaling, synaptic transmission, and neuroplasticity.

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.

Evolution is the unifying theory of biology, explaining the diversity of life on Earth and the mechanisms that drive adaptation and speciation. This course will explore the core principles of evolutionary biology, including natural selection, genetic drift, gene flow, mutation, and the interplay between evolutionary processes and ecological contexts. We will examine key evolutionary events, from the origins of life to the development of complex traits, using case studies across diverse taxa.