{"id":118,"date":"2012-08-30T18:01:51","date_gmt":"2012-08-30T18:01:51","guid":{"rendered":"https:\/\/www.jsums.edu\/physics\/?page_id=118"},"modified":"2017-01-10T16:15:37","modified_gmt":"2017-01-10T16:15:37","slug":"full-course-descriptions","status":"publish","type":"page","link":"https:\/\/www.jsums.edu\/physics\/full-course-descriptions\/","title":{"rendered":"Full Course Descriptions"},"content":{"rendered":"

\n\tBack to Physics Home Page<\/a> | Back to Previous Page<\/a><\/span>\n<\/p>\n

\n\tDepartment of Physics, Atmospheric Sciences, and General Science
\n\tOffice: Just Hall of Science Building<\/strong>\n<\/p>\n

\n\tTheory Lab
\n\tPHY 151, PHY 198, PHY 199,
\n\tPHY 201, PHY 202, PHY 211, PHY 212, PHY 216, PHY 241, PHY 242, PHY 251, PHY 261, PHY 298, PHY 299 PHYL 201, PHYL 202, PHYL 212, PHYL 211
\n\tPHY 330, PHY 311, PHY 312, PHY 328, PHY 329, PHY 342, PHY 351, PHY 361, PHY 362, PHY 380, PHY 398, PHY 399
\n\tPHY 401, PHY 411, PHY 412, PHY 422, PHY 410, PHY 430, PHY 431, PHY 433, PHY 441, PHY 442, PHY 461, PHY 480, PHY 449, PHY 498, PHY 499<\/span>\n<\/p>\n

\n\tPHY 151 (3) Introduction to Physics.
\n\tAn introduction to some of the basic concepts of physics, intended both for nonscience majors seeking scientific literacy and also for students who desire some experience in physics before taking Physics 201 or 211. This course satisfies the Core II physical science requirement.
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\n\tPHY 198, 199, 298, 299, 398, 399, 498, 499 (0.5 each) Physics Seminar.
\n\tPresentation and discussion of current physics topics and research by students, faculty and visiting speakers. All physics majors are expected to participate.
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\n\tPHY 201 (3) Basic Physics I.
\n\tPrerequisites: MATH 111 and 115, or MATH 118. Introduction to mechanics, wave motion, sound, and heat for science majors whose curricula may not include calculus.
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\n\tPHYL 201 (1) Basic Physics Laboratory I.
\n\tCo-requisite: PHY 201. Weekly laboratory experiments in the areas covered in PHY 201.
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\n\tPHY 202 (3) Basic Physics II.
\n\tPrerequisite: PHY 201. A continuation of Phy 201. Introduction to electricity, magnetism, optics, and modern physics.
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\n\tPHYL 202 (1) Basic Physics Laboratory II. Prerequisite: PHYL 201. Corequisite: PHY 202. Weekly laboratory experiments in the areas covered in Phy 202.
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\n\tPHY 211 (4) General Physics I.
\n\tPrerequisite: MATH 231. Introduction to mechanics, wave motion, sound, and heat. Calculus-based and more intensive than Phy 201.
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\n\tPHYL 211 (1) General Physics Laboratory I.
\n\tCorequisite: PHY 211. Weekly laboratory experiments in the areas covered in Phy 211.
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\n\tPHY 212 (4) General Physics II.
\n\tPrerequisites: PHY 211, MATH 232. A Calculus-based continuation of Phy 211. Introduction to electricity, magnetism, optics, and modern physics.
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\n\tPHYL 212 (1) General Physics Laboratory II.
\n\tPrerequisite: PHYL 211. Corequisite: PHY 212. Weekly laboratory experiments in the areas covered in Phy 212.
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\n\tPHY 216 (3) Modern Physics.
\n\tPrerequisite: PHY 212. An introduction to relativity and quantum effects including atomic structure and spectra, nuclear structure and reactions, and high-energy physics.
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\n\tPHY 241 (4) Introduction to Astronomy.
\n\tAn introductory survey of the solar system, stars, nebulae, and galaxies, with discussion of cosmology, life in the universe, and the space program. Includes weekly observatory Sessions. This course satisfies the Core II physical science requirement.
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\n\tPHY 242 (4) Life in the Universe.
\n\tAn examination of the conditions necessary for the existence of life in the universe and of the possibilities for the detection of such life and for communication with intelligent life. Relevant basic astronomy is included.
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\n\tPHY 251 (4) Cosmology for nonscientists.
\n\tA study of the structure, origin, and evolution of the universe. Includes relevant basic astronomy and discussion of fundamental observations.
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\n\tPHY 261 (2) Astrophotography.
\n\tAn introduction to photographic principles and basic observational techniques in astronomy. Emphasis is on information for the amateur, but professional observations are also discussed.
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\n\tPHY 311 (3) Theoretical Mechanics I.
\n\tPrerequisites: PHY 211, MATH 232. A modern treatment of classical mechanics including single-particle dynamics, oscillations, gravitation, the calculus of variations. Lagrangian and Hamiltonian dynamics, and central-force motion.
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\n\tPHY 312 (3) Theoretical Mechanics II.
\n\tPrerequisite: PHY 311. A continuation of Phy 311 including study of systems of particles, noninertial reference frames, rigid-body dynamics, coupled oscillations, continuous systems, the wave equation, and the special theory of relativity.
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\n\tPHY 328 (4) Digital Electronics for Scientists.
\n\tPrerequisite: PHY 212. A introduction to digital electronics and microcomputers including digital logic, programming and interfacing microcomputers, and applications of microcomputers to projects of interest to the physical scientist.
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\n\tPHY 329 (4) Analog Electronics for Scientists.
\n\tPrerequisite: PHY 212. An introduction to analog electronics including DC and AC circuit analysis, source transformations, semiconductor devices, mathematical models of semiconductor devices, and a survey of the use of modern linear integrated circuits in applications of interest to the advanced physical science student.
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\n\tPHY 330 (3) Methods of Experimental Physics I.
\n\tPrerequisite or Corequisite: PHY 216. Primarily a laboratory course, comprised of lectures and advanced experiments in electronics, optics, modern physics, and astronomy.
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\n\tPHY 342 (3) Optics.
\n\tPrerequisite:PHY 216. A lecture course on modern optics covering geometrical, wave, and quantum optics, and modern optical technology, with applications to atomic spectroscopy and lasers.
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\n\tPHY 351 (3) Thermodynamics and Statistical Physics.
\n\tPrerequisite: PHY 212. A study of equations of state, the laws of thermodynamics, thermodynamic potential, statistical thermodynamics, kinetic theory, and elementary statistical mechanics.
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\n\tPHY 361 (3) Mathematical Methods of Physics and Chemistry I.
\n\tPrerequisite: PHY 212. An introduction to advanced techniques of applied mathematics used in physics and chemistry, including applied linear algebra, ordinary differential equations, and Laplace's equation.
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\n\tPHY 362 (3) Mathematical Methods of Physics and Chemistry II.
\n\tPrerequisite: PHY 361. A continuation of Physics 361, including vector calculus, Fourier series and orthogonal expansions, Fourier integrals, complex variables and conformal mappings, complex integration, and the heat and wave equations.
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\n\tPHY 380 (1-6) Independent Study.
\n\tPrerequisite: Approval of instructor. Investigation of a topic selected by the student in consultation with the faculty. This course may be repeated for credit.
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\n\tPHY 401 S (3) Physics for Secondary Teachers.
\n\tPrerequisite: PHY 212. Examination of various text and laboratory materials which are available for high school physics courses. Discussion of the goals of the high school physics course and consideration of some of the difficulties which are likely to be encountered.
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\n\tPHY 410 (3) History of Physics.
\n\tPrerequisite: PHY 216. Survey of the historical development of physics based on the study of classic papers and scholarly works.
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\n\tPHY 411 (3) Electromagnetic Theory I.
\n\tPrerequisite: PHY 362. A study of static electric and magnetic fields including Gauss' Law, Ampere's Law, and the solution of Laplace's equation.
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\n\tPHY 412 (3) Electromagnetic Theory II.
\n\tPrerequisite: PHY 411. A continuation of Physics 411 including study of time-dependent fields, Maxwell's equation, electromagnetic waves and radiation.
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\n\tPHY 422 (3) Quantum Mechanics.
\n\tPrerequisites: PHY 216 and 362. An introduction to quantum mechanics, wave functions, and the Schrodinger equation, including solution of the Schrodinger equation for a box, barrier, square well, harmonic oscillator, and the hydrogen atom.
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\n\tPHY 430 (3) Methods of Experimental Physics II.
\n\tPrerequisite: PHY 330. A continuation of Physics 330. Selected advanced experiments in electronics, optics, modern physics, and astronomy.
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\n\tPHY 431 (3) Atomic and Nuclear Physics.
\n\tPrerequisite: PHY 422. A lecture course comprising a study of the properties of atoms and nuclei, a review of classic experiments, and an investigation of related applications of quantum mechanics.
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\n\tPHY 433 (3) Solid State Physics.
\n\tPrerequisite: PHY 216. An introduction to solid state physics including crystal structures, electron and mechanical waves in crystals, semiconductors, electric and magnetic properties of solids, and point defects in crystals.
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\n\tPHY 441 (4) Solar System Astronomy.
\n\tPrerequisite: PHY 212. An introduction to the solar system intended for mathematics and science majors and including the physics and chemistry of the sun, plants, moons, comets, and the interplanetary medium, life on the planets, and artificial satellites.
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\n\tPHY 442 (4) Stellar and Galactic Astronomy.
\n\tPrerequisite: PHY 212. An introduction to the stellar and galactic astronomy intended for mathematics and science majors and including the physics and chemistry of the stars and the interstellar medium, star and galaxy formation, and basic cosmology.
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\n\tPHY 449 (3) Special Topics in Physics.
\n\tPrerequisite: Approval of instructor. Advanced specialized topic courses selected on the basis of faculty and student interest. This course may be repeated for credit.
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\n\tPHY 461 (3) Computational Physics.
\n\tPrerequisite: PHY 362. A study of numerical and computational techniques for solving physical problems including using analytical and physical theory to simplify and approximate, writing algorithms and programs, and using commercial and other available software.
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\n\tPHY 480 (1-6) Research Project.
\n\tPrerequisite: Approval of instructor. Supervised original research by the individual student on a problem selected in the consultation with the faculty. This course may be repeated for credit.
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Back to Physics Home Page | Back to Previous Page Department of Physics, Atmospheric Sciences, and General Science Office: Just Hall of Science Building Theory Lab PHY 151, PHY 198, PHY 199, PHY 201, PHY 202, PHY 211, PHY 212, PHY 216, PHY 241, PHY 242, PHY 251, PHY 261, PHY 298, PHY 299 PHYL 201, PHYL […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_monsterinsights_skip_tracking":false,"_monsterinsights_sitenote_active":false,"_monsterinsights_sitenote_note":"","_monsterinsights_sitenote_category":0},"aioseo_notices":[],"_links":{"self":[{"href":"https:\/\/www.jsums.edu\/physics\/wp-json\/wp\/v2\/pages\/118"}],"collection":[{"href":"https:\/\/www.jsums.edu\/physics\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.jsums.edu\/physics\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.jsums.edu\/physics\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.jsums.edu\/physics\/wp-json\/wp\/v2\/comments?post=118"}],"version-history":[{"count":6,"href":"https:\/\/www.jsums.edu\/physics\/wp-json\/wp\/v2\/pages\/118\/revisions"}],"predecessor-version":[{"id":662,"href":"https:\/\/www.jsums.edu\/physics\/wp-json\/wp\/v2\/pages\/118\/revisions\/662"}],"wp:attachment":[{"href":"https:\/\/www.jsums.edu\/physics\/wp-json\/wp\/v2\/media?parent=118"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}