Music, Ensembles and Lessons (Individual and Group)
Weekly lessons with the instructor and daily practice are expected. This course may be repeated more than once for credit.
Weekly lessons with the instructor and daily practice are expected. This course may be repeated more than once for credit.
An advanced singing course that provides individual lessons on a weekly basis with daily practice expected. This course may be repeated more than once for credit.
Focusing on musical theater and commercial vocal styles, this advanced singing course provides individual lessons on a weekly basis with daily practice expected. This course may be repeated more than once for credit.
Weekly lessons with the instructor and daily practice are expected. This course may be repeated more than once for credit.
Weekly lessons with the instructor and daily practice are expected. This course may be repeated more than once for credit.
Weekly lessons with the instructor and daily practice are expected. This course may be repeated more than once for credit.
Weekly lessons with the instructor and daily practice are expected. This course may be repeated more than once for credit.
Weekly lessons with the instructor and daily practice are expected. This course may be repeated more than once for credit.
Weekly lessons with the instructor and daily practice are expected. Music majors may earn a full course credit during the semester in which a senior recital is given. This course may be repeated more than once for credit.
Neuroscience
This course provides an introduction to the structure and function of the central and peripheral nervous systems. Fundamental concepts and topics in neuroscience will be discussed using molecular/cellular, behavioral and/or cognitive frameworks; clinically relevant conditions (e.g., neurodegenerative diseases, psychiatric disorders) will also be explored. Methods and techniques used by neuroscientists in research laboratories and clinical settings will be used to understand how neuroscience knowledge is constructed.
This course introduces major topics and techniques used by behavioral neuroscientists to study the relationship between the brain and behavior. Content may explore motivated behaviors, stress, learning and memory, control of movement, sleep and circadian rhythms, and preclinical models of psychiatric and neurodegenerative disorders.
This course introduces major topics and techniques used by behavioral neuroscientists to study the relationship between the brain and behavior. Content may explore motivated behaviors, stress, learning and memory, control of movement, sleep and circadian rhythms, and preclinical models of psychiatric and neurodegenerative disorders.
This lecture and laboratory course utilizes electrical recordings from a variety of invertebrates to build upon topics discussed in NEUR 208, illustrating the principles of nervous system communication in sensory and motor systems. The course will also include the roles of hypothesis testing, models, data analysis, and the scientific method in understanding how experimental data can lead to knowledge of nervous system function.
This lecture and laboratory course utilizes electrical recordings from a variety of invertebrates to build upon topics discussed in NEUR 208, illustrating the principles of nervous system communication in sensory and motor systems. The course will also include the roles of hypothesis testing, models, data analysis, and the scientific method in understanding how experimental data can lead to knowledge of nervous system function.
This seminar course examines topics related to the neuroeconomics of choice. Topics may include cognitive effort, temporal discounting, overconfidence, risk sensitivity, anchoring, and prospect theory. A significant portion of the course consists of student-led discussion of readings examining these topics. Readings focus on scholarly works featuring psychological and neurobiological perspectives.
Non-Departmental
An interdisciplinary, project-based learning course focused on exploring and promoting diversity and inclusion within the STEM community (STEM = Science, Technology, Engineering, and Math). Students and instructors collaborate to investigate issues related to belonging in STEM on campus and beyond by evaluating scientific literature on diversity and inclusion within STEM fields, developing tools and approaches, and sharing findings with the community. This course is intended for students interested in pursuing a STEM major.
An interdisciplinary, project-based learning course focused on exploring and promoting diversity and inclusion within the STEM community (STEM = Science, Technology, Engineering, and Math). Students and instructors collaborate to investigate issues related to belonging in STEM on campus and beyond by evaluating scientific literature on diversity and inclusion within STEM fields, developing tools and approaches, and sharing findings with the community. This course is intended for students interested in pursuing a STEM major.