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Course Criteria
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0.00 - 4.00 Credits
This course designation is used to describe a transfer course from another institution which has been evaluated by the convener. A course with this course number has no equivalent Ramapo course. It may fulfill a requirement or may count as a free elective. 0.000 TO 4.000 Credit Hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Theoretical & Applied Science College Physics Department
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0.00 - 4.00 Credits
Limited opportunities to enroll for course work on an Independent Study basis are available. A student interested in this option should obtain an Independent Study Registration Form from the Registrar, have it completed by the instructor and school dean involved, and return it to the Registrar's Office. Consult the current Schedule of Classes for policies concerning Independent Study. 0.000 TO 4.000 Credit Hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Independent Study Theoretical & Applied Science College Physics Department
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0.00 - 4.00 Credits
A study of advanced concepts in solid state, low temperature and nuclear physics. Areas typically covered will include, the two-nucleon system, nuclear forces, models, properties, reactions and decay, the crystalline state, specific heat and lattice vibrations, properties of lattices and insulators, free electron theory of metals, band theory of solids, conductivity of metals, and electron distribution in insulators and semi-conductors. 0.000 TO 4.000 Credit Hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Theoretical & Applied Science College Physics Department
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0.00 - 4.00 Credits
A study of the concepts, postulates, and applications of quantum mechanics. Areas covered will include the Schroedinger equation, the use of operators, application of SE to simple quantum systems, QM postulates, variational and perturbation methods, spin and angular momentum, and topics on atomic, molecular and nuclear structure, bonding, intermolecular forces and reaction mechanisms. 0.000 TO 4.000 Credit Hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Theoretical & Applied Science College Physics Department
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0.00 - 4.00 Credits
A continuation of Quantum Mechanics I. Applications of quantum mechanics are covered includig perturbation theory, variational principle, WKB and adiabatic approximations, and scattering. 0.000 TO 4.000 Credit Hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Theoretical & Applied Science College Physics Department
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0.00 - 4.00 Credits
Reading and study in advanced fields of physics to develop interest in and ability for independent study; applications of physics, and mathematical methods for physics problem-solving. Quantum mechanics beyond Schrodinger wave mechanics; the role of symmetries in nature; field theory of electricity and magnetism with emphasis on solving boundary value problems, etc. 0.000 TO 4.000 Credit Hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Theoretical & Applied Science College Physics Department
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0.00 - 4.00 Credits
This course will acquaint the student with the most significant facts concerning light phenomena, and with the basic physical concepts that underlie their interpretation. 0.000 TO 4.000 Credit Hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Theoretical & Applied Science College Physics Department
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0.00 - 4.00 Credits
Laboratory practice, including vacuum systems, electronic instrumentation, computers and integrated circuits, high voltage measurements, counting and statistics. 0.000 TO 4.000 Credit Hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Theoretical & Applied Science College Physics Department
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0.00 - 4.00 Credits
Photonics is the branch of physics that deals with the generation, transmission and detection of light (applications and properties). This course focuses on the physical concepts behind the latest innovations in photonics. It first explores propagation of light in optical fibers addressing the notions of loss, dispersion and polarization. Then, it explores semiconductor technology and covers the fundamentals of photon emissions and detection (i.e., what are the different types of lasers and photodetectors available, how they work, what are their properties). Optical amplification is also studied. Finally, performance issues related to non-linear effects are introduced. 0.000 TO 4.000 Credit Hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Theoretical & Applied Science College Physics Department
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0.00 - 4.00 Credits
This course designation describes a transfer course from another institution where an equivalency to a Ramapo College course has not been determined. Upon convener evaluation, this course ID may be changed to an equivalent of a Ramapo College course or may fulfill a requirement. 0.000 TO 4.000 Credit Hours 0.000 TO 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Theoretical & Applied Science College Physics Department
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