This is the first course in a two-semester sequence designed to introduce students to fundamental theoretical principles and analysis of mechanics of continuous media, including solids and fluids. Concepts and topics to be covered in this course include conservation laws, static and dynamic behavior of rigid bodies, analysis of machines and frames, internal forces, centroids, moment of inertia, vibrations and an introduction to stress and strain. Prerequisites: PHY 117 and MTH 112 (or the equivalent). Required laboratory taken once a week. Enrollment limit of 20.

Analog and digital circuits are the building blocks of computers, medical technologies, and all things electrical. This course introduces both the fundamental principles necessary to understand how circuits work and mathematical tools that have widespread applications in areas throughout engineering and science. Topics include, Kirchhoff’s laws, Thévenin and Norton equivalents, superposition, responses of first-order and second-order networks, time-domain and frequency-domain analyses, and frequency-selective networks. Required laboratory taken once a week.

Analog and digital circuits are the building blocks of computers, medical technologies, and all things electrical. This course introduces both the fundamental principles necessary to understand how circuits work and mathematical tools that have widespread applications in areas throughout engineering and science. Topics include, Kirchhoff’s laws, Thévenin and Norton equivalents, superposition, responses of first-order and second-order networks, time-domain and frequency-domain analyses, and frequency-selective networks. Required laboratory taken once a week.

EGR 100 serves as an accessible course for all students, regardless of background or intent to major in engineering. Engineering majors are required to take this course for the major. Those students considering majoring in engineering are strongly encouraged to take EGR 100 during their first year. Students develop a sound understanding of the engineering design process, including problem definition, background research, identification of design criteria, development of metrics and methods for evaluating alternative designs, prototype development, and proof of concept testing.

EGR 100 serves as an accessible course for all students, regardless of background or intent to major in engineering. Engineering majors are required to take this course for the major. Those students considering majoring in engineering are strongly encouraged to take EGR 100 during their first year. Students develop a sound understanding of the engineering design process, including problem definition, background research, identification of design criteria, development of metrics and methods for evaluating alternative designs, prototype development, and proof of concept testing.

EGR 100 serves as an accessible course for all students, regardless of background or intent to major in engineering. Engineering majors are required to take this course for the major. Those students considering majoring in engineering are strongly encouraged to take EGR 100 during their first year. Students develop a sound understanding of the engineering design process, including problem definition, background research, identification of design criteria, development of metrics and methods for evaluating alternative designs, prototype development, and proof of concept testing.

EGR 100 serves as an accessible course for all students, regardless of background or intent to major in engineering. Engineering majors are required to take this course for the major. Those students considering majoring in engineering are strongly encouraged to take EGR 100 during their first year. Students develop a sound understanding of the engineering design process, including problem definition, background research, identification of design criteria, development of metrics and methods for evaluating alternative designs, prototype development, and proof of concept testing.

EGR 100 serves as an accessible course for all students, regardless of background or intent to major in engineering. Engineering majors are required to take this course for the major. Those students considering majoring in engineering are strongly encouraged to take EGR 100 during their first year. Students develop a sound understanding of the engineering design process, including problem definition, background research, identification of design criteria, development of metrics and methods for evaluating alternative designs, prototype development, and proof of concept testing.

EGR 100 serves as an accessible course for all students, regardless of background or intent to major in engineering. Engineering majors are required to take this course for the major. Those students considering majoring in engineering are strongly encouraged to take EGR 100 during their first year. Students develop a sound understanding of the engineering design process, including problem definition, background research, identification of design criteria, development of metrics and methods for evaluating alternative designs, prototype development, and proof of concept testing.

Sectioned course.: This high-speed racket class starts off with British racquetball to introduce students to four-wall play with a shorter racket and a larger ball. We then move to high-quality regulation squash equipment. Squash is a great aerobic activity that improves on balance, agility and eye-hand coordination. Nonmarking shoes suitable for squash are mandatory. (Beginner). Enrollment limited to 10.