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Course Criteria
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3.00 Credits
This course is a continuation of Physics 27. Four hours laboratory. Prerequisite of PHY 27 is required.
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4.00 Credits
Physics 3 is the first half of an introductory, calculus-based, physics course for science and mathematics majors, covering the laws and principles of mechanics, thermodynamics,and waves. Four hours lecture, two hours laboratory. Prerequisite or co-requisite of MTH 7 is required.
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4.00 Credits
With developing emphasis on the historical and philosophical aspects of physics, the course will examine principles and illustrations of mechanics, heat, wave motion and sound. Intended for the non-science major, the first semester will focus on basic laws that govern our thoughts about the universe from the late Renaissance to the present century. No math beyond high school algebra is required. Three hours lecture, three hours laboratory. Must be in Honors Program
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4.00 Credits
From principles of Classical Physics the course will shift in the spring term to modern theories of electricity and magnetism, optics and the shattering advent of Einstein's Theory of Relativity and Heisenberg's Uncertainty Principle. We will arrive at a view of the physical world as it now appears in most current imaginative insights. For students of all majors, the course is designed to teach comprehensively the science and philosophical implications of physics. Three hours lecture, three hours laboratory. Prerequisite of PHY 301 is required.
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4.00 Credits
Physics 4 is the second half of an introductory, calculus-based physics course for science and mathematics majors. It is concerned with the laws and principles of electricity, magnetism,and optics, and includes and introduction to modern physics. Four hours lecture, two hours laboratory. Prerequisites of PHY 3 and MTH 7 and corequisite of MTH 8 are required.
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4.00 Credits
In this course, the basic concepts of electrical circuit theory and system analysis are introduced. Topics include: circuit elements, practical sources and semiconductor devices, steady state nodal and mesh analysis of d.c. and a.c. circuits, network theorems, filters and resonance, operational amplifiers and transformers, Laplace transforms. The course also contains a laboratory component in which students construct and test circuits. Four hours lecture-recitation-laboratory. Prerequisite of PHY 4 or permission of instructor is required.
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3.00 Credits
This course examines Maxwell's equations, the wave equations and their solution, electromagnetic theory of light, cavity resonators, wave guides. Three hours lecture-recitation. Prerequisites of PHY 16 and MTH 21 are required.
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3.00 Credits
This course is an introduction to the physics of metals, semiconductors and insulators that includes the study of crystal structure, lattice vibrations, electron motion in crystals, electrical and thermal properties, magnetism, Fermi surfaces, superconductivity. Three hours lecture-recitation. Prerequisite of PHY 19 is required.
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3.00 Credits
This course is an introduction to the physics of metals, semiconductors and insulators that includes the study of crystal structure, lattice vibrations, electron motion in crystals, electrical and thermal properties, magnetism, Fermi surfaces, superconductivity. Three hours lecture-recitation. Prerequisite of PHY 19 is required.
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3.00 Credits
This course is an introduction to digital systems, including treatment of combinational logic, switching algebra, minimization of logical networks, flip-flops and other circuit elements, sequential networks and the design of digital systems. Three hours lecture-recitation. Prerequisite of PHY 41 is required.
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