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Physical Education |
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-
PHED 162 - Ice Skating
(W)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Covers basic figure skating technique using U.S. Figure Skating adult teaching guidelines, levels 1 through 4. Skills include proper use of forward and backward edges, basic curves and turns, simple spins and integrated use of upper body and arm movements.
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-
PHED 163 - Wilderness Navigation
(S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Learn to read a map and utilize a compass. Gain skill to find precise wilderness locations. Learn the dangers of wilderness travel, and deal with those situations. Two field trips polish skills using map and compass to navigate.
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-
PHED 170 - Golf
(S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Lecture covers terminology, rules, etiquette, and course management. Practical class will cover putting, chipping, and driving.
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-
PHED 171 - Archery: Beginning
(S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Students learn basics of shooting a bow & arrow. Safety, form, mechanics, and practical basic skills. Classes meet off-campus. No prior experience required.
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-
PHED 172 - Archery: Intermediate
(S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Build upon basic skills learned in Beginning Archery. Advanced instruction in shooting, mechanics, and basic repairs offered. Classes meet off-campus.
Prerequisite: PHED 171
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-
PHED 174 - Recreational Basketball
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Basketball game played in a recreational environment. Emphasis on free play and team skill development. Most suitable for players with basic basketball skills.
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-
PHED 175 - Rugby
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Basic rugby skill, practice, and game play. Players of any skill level welcome. Participants should be able to engage in physical contact, strength development, endurance training, team practice, and game play.
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-
PHED 180 - Varsity Cross Country
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Competitive Cross Country for multi-level distance runners. Trail running, conditioning, strength training, psychological peak performance, nutrition, race tactics, running physiology and injury prevention is included. Participation in intercollegiate competition is included. Varsity athletes only or coach’s approval.
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-
PHED 181 - Varsity Soccer
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Competitive Soccer at the intercollegiate level, including coaching strategies, offensive and defensive strategies, training, conditioning and team organization. Varsity athletes only or coach’s approval.
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-
PHED 182 - Varsity Track/Field
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Competitive Track and Field techniques are covered including training, conditioning and team organization. Competition at the intercollegiate level. Varsity athletes only or coach’s approval.
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-
PHED 183 - Varsity Men’s Baseball
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Competitive Baseball on the intercollegiate level, including coaching strategies, offensive and defensive strategies, training, conditioning and team organization. Varsity athletes only or coach’s approval.
|
| |
-
PHED 184 - Varsity Men’s Basketball
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Competitive Basketball, including coaching strategies, offensive and defensive strategies, training, conditioning and team organization, including intercollegiate competition. Varsity athletes only or coach’s approval.
|
| |
-
PHED 185 - Varsity Women’s Basketball
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Competitive Basketball, including coaching strategies, offensive and defensive strategies, training, conditioning and team organization, including intercollegiate competition. Varsity athletes only or coach’s approval.
|
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-
PHED 186 - Varsity Women’s Softball
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Competitive Softball including coaching strategies, offensive and defensive strategies, training, conditioning and team organization, including intercollegiate competition. Varsity athletes only or coach’s approval.
|
| |
-
PHED 187 - Varsity Women’s Volleyball
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Competitive Volleyball at the intercollegiate level including advanced technique analysis, offensive and defensive strategies, training, conditioning, and team organization. Varsity athletes only or coach’s approval.
|
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-
PHED 188 - Varsity Sport Strength/Conditioning
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
This course provides instruction for sports specific conditioning for varsity athletes. This includes strength training, power training, speed and agility training, core training, dynamic flexibility, and specific energy system training. Varsity athletes only or instructor consent.
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-
PHED 189 - Varsity Golf
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Competitive golf techniques are covered including training, conditioning, team organization and advanced technique analysis. Competition at the intercollegiate level. Varsity athletes only or coach’s approval.
|
| |
-
PHED 190 - Physical Education
(F,W,S)
Lecture Hours: 0
Lab Hours: 3
Credit Hours: 1
Service course. General participation in physical activities to promote sound health.
|
| |
-
PHED 201 - Sports Seminar - Officiating
(S)
Lecture Hours: 1
Lab Hours: 3
Credit Hours: 2
This course includes rules, mechanics and officiating procedures in sports found in intercollegiate, interscholastic, and intramural programs. Practical experience in officiating will be provided.
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-
PHED 207 - Major Sports Seminar
(F,W,S)
Lecture Hours: 1
Lab Hours: 2
Credit Hours: 2
Development of professional competencies in fundamentals of training methods and objectives of major sports.
|
| |
-
PHED 255 - Introduction to Coaching Theory
(S)
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
An introduction to the central principles of coaching. Exploration of coaching as a practice including theories of coaching, motivation, and organization.
|
| |
-
PHED 291 - Lifeguard Training
(S)
Lecture Hours: 1
Lab Hours: 2
Credit Hours: 2
Basic skills of lifesaving in aquatic programs; American Red Cross Advanced Lifesaving Authorization.
|
| |
-
PHED 292 - Water Safety Instructor
(S)
Lecture Hours: 1
Lab Hours: 2
Credit Hours: 2
Analysis, methods of instruction, and teaching of aquatic skills; American Red Cross Authorization in Water Safety Instruction.
|
| |
-
PHED 307 - Seminar
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PHED 355 - Coaching in Application
(S)
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Application of the principles of coaching. Application of the theories of coaching across contexts and in various different sports.
Prerequisite: PHED 255
|
| |
-
PHED 407 - Seminar
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PHED 455 - Coaching Practicum
(S)
Lecture Hours: 0
Lab Hours: 6
Credit Hours: 3
Practical application of coaching theories and methods in context. 60 hours of directed coaching experience.
Prerequisite: PHED 355
|
Philosophy |
| |
-
PHIL 105 - Introduction to Ethics
(F) H
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Students will become familiar with Kant’s moral theory and Utilitarianism and use them to examine the morality of abortion, factory farming, and famine relief, among others. Students will learn how to make rational moral judgments.
Prerequisite: WRI 122 or WRI 227
|
| |
-
PHIL 107 - Seminar
H
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PHIL 205 - Introduction to Logic
(F,W,S) H
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
This course prepares students to critique and assess arguments according to the rules of logic. Students will learn formal and informal methods for assessing deductive, inductive, abductive arguments. Logic is useful for all majors because everything you learn at OIT is based on arguments.
|
| |
-
PHIL 207 - Seminar
H
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PHIL 215 - Ethical Theory
(W) H
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Students will become familiar with some plausible moral theories: Kant’s moral theory, Aristotle’s moral theory, Utilitarianism, The Social Contract, Feminist Ethics and with some more controversial moral theories: Cultural Relativism, Divine Command Theory, Natural Law Theory, Emotivism.
Prerequisite: WRI 122 or WRI 227
|
| |
-
PHIL 305 - Medical Ethics
(F) H
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Students will become familiar with Kant’s moral theory and Utilitarianism and use them to examine the morality of abortion, paternalism, allocation of medical resources, and the right to die, among others. Students will learn how to make rational moral judgments.
Prerequisites: WRI 122 and Junior standing
|
| |
-
PHIL 307 - Seminar
H
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PHIL 315 - The Ethics of Emerging Technology
(F) H
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
In this course we will become familiar with genetic engineering, geoengineering and cognitive enhancement and examine the moral status of each. This course will provide you with the critical thinking skills to make rational ethical decisions concerning emerging technologies.
Prerequisite: WRI 122 or WRI 227
|
| |
-
PHIL 325 - Environmental Ethics
(S) H
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Students will become familiar with influential moral theories, including those of Kant and Aristotle and Utilitarianism. Possible topics include: What is nature? Do we have a moral obligation to restore ecosystems? If we have moral obligations to nature, on what grounds?
Prerequisite: WRI 122 or WRI 227
|
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-
PHIL 331 - Ethics in the Professions
(F,W,S) H
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Applied ethics course that focuses on examining ethical issues common to the professions, such as privacy, confidentiality, social responsibility and whistle-blowing. Emphasizes critical thinking and ethical decision-making skills.
Prerequisite: WRI 123 or WRI 227
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| |
-
PHIL 335 - Philosophy of Science
(W) H
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
What is the difference between science and pseudoscience? What is a scientific explanation? What is a law of nature? Is science objective or value-laden? In this course, students will engage with these and other fundamental topics in philosophy of science.
Prerequisite: WRI 122 or WRI 227
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| |
-
PHIL 342 - Business Ethics
(F,W,S) H
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Business ethics course that focuses on ethical issues commonly found in business, such as whistle-blowing, discrimination, finance and international manufacturing. Emphasizes critical thinking, critical reading and the importance of personal ethics.
Prerequisites: One previous Humanities course and WRI 122
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| |
-
PHIL 405 - Advanced Logic
(W) H
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
This course will build off the foundation of PHIL 205 . Students will deepen their understanding of sentential logic and will learn about predicate logic. We will also prove that both formal systems are sound and complete.
Prerequisite: PHIL 205
|
| |
-
PHIL 407 - Seminar
H
Credit Hours: (Hours to be arranged each term.)
|
Physics |
| |
-
PHY 107 - Seminar
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PHY 201 - General Physics
(F)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
An introduction to physics with study of Newtonian mechanics, including kinematics, dynamics, work, energy, power, and hydraulics. All general physics students must register for a laboratory section.
Prerequisite: MATH 112 with grade “C” or better
|
| |
-
PHY 202 - General Physics
(W)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Temperature systems, heat, kinetic theory of gasses, introductory thermodynamics, and the fundamentals of electricity and magnetism. All general physics students must register for a laboratory section.
Prerequisite: PHY 201
|
| |
-
PHY 203 - General Physics
(S)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Wave motion, sound, introduction to geometrical and physical optics, and topics from modern physics. All general physics students must register for a laboratory section.
Prerequisite: PHY 202
|
| |
-
PHY 207 - Seminar
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PHY 215 - Topics in Astronomy
(F)
Lecture Hours: 2
Lab Hours: 3
Credit Hours: 3
Astronomy including a survey of the solar system, constellations, star characteristics, star groupings, galactic and extragalactic objects, stellar evolution, and instrumentation with emphasis on topics of maximum interest to the students.
Prerequisite: MATH 111
|
| |
-
PHY 217 - Physics of Medical Imaging
(F,S)
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
An introduction to physics for MIT majors. Topics include: basic mechanics, basic electrostatics, fundamentals of electronics, magnetism, sources and types of radiation, and image formation.
Prerequisite: MATH 112 with grade “C” or better
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| |
-
PHY 221 - General Physics with Calculus
(F,W)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Basic principles of physics with emphasis on applications of calculus. Newtonian mechanics, including kinematics, dynamics, work, energy, power, and hydraulics. All general physics students must register for a laboratory section.
Prerequisite: MATH 251 with grade “C” or better
Corequisite: MATH 252
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| |
-
PHY 222 - General Physics with Calculus
(W,S)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Temperature systems, heat, kinetic theory of gasses, thermodynamics and the fundamentals of electricity and magnetism. All general physics students must register for a laboratory section.
Prerequisites: MATH 252 and PHY 221
|
| |
-
PHY 223 - General Physics with Calculus
(F,S)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Wave motion, sound, introduction to geometrical and physical optics, and selected topics from modern physics. All general physics students must register for a laboratory section.
Prerequisite: PHY 222
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| |
-
PHY 305 - Nanoscience and Nanotechnology
(F)
Lecture Hours: 4
Lab Hours: 0
Credit Hours: 4
Survey of chemical and physical phenomena as applied to nanoscale materials, including metal and semiconductor nanoparticles and carbon nanostructures. Discussion of major synthesis and characterization techniques. Biological and engineering applications of nanoscale materials.
Prerequisites: PHY 222 or PHY 223 , and CHE 202 or CHE 222
|
| |
-
PHY 307 - Seminar
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PHY 311 - Introduction to Modern Physics
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
An introduction to physics of the 20th century, including selected topics from atomic and nuclear physics and quantum theory with applications in science and industry.
Prerequisite: PHY 203 or PHY 223
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| |
-
PHY 312 - Introduction to Modern Physics
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
An introduction to physics of the 20th century, including selected topics from atomic and nuclear physics and quantum theory with applications in science and industry.
Prerequisite: PHY 203 or PHY 223
|
| |
-
PHY 313 - Introduction to Modern Physics
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
An introduction to physics of the 20th century, including selected topics from atomic and nuclear physics and quantum theory with applications in science and industry.
Prerequisite: PHY 203 or PHY 223
|
| |
-
PHY 330 - Electricity and Magnetism
(W)
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
A study of electromagnetic phenomena leading to and using Maxwell’s equations. Topics will include static fields in vacuum and in dielectric media, electric and magnetic potentials, and the energy density of electromagnetic fields.
Prerequisites: MATH 254N and PHY 222
Corequisite: MATH 253N
|
| |
-
PHY 407 - Seminar
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PHY 410 - Mathematical Methods: Fourier Optics
(W)
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Linear systems, Fourier transforms, and their use in optics. Topics will include special functions, orthogonal expansions, Fourier series and transforms and spectra of functions, mathematical operators, convolution, autocorrelation, cross correlation, linear systems as filters, and signal processing.
Prerequisite: MATH 254N
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-
PHY 448 - Geometric Optics
(W)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Reflection and refraction at plane and curved surfaces; imaging properties of lenses; first order Gaussian optics and thin-lens system layout; matrix optics; ray-tracing software; spherical and chromatic aberrations.
Prerequisite: PHY 223
|
| |
-
PHY 449 - Radiometry & Optical Detection
(F)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Fundamentals of radiometry and photometry; detection of light using thermal and photon (photoemissive, photoconductive, and photovoltaic) methods; noise processes; blackbodies; charge transfer devices; spectroradiometry.
Prerequisites: EE 223 and PHY 223
|
| |
-
PHY 450 - Physical Optics
(S)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Spherical and planar waves; scalar diffraction theory; Fresnel and Fraunhofer diffraction and application to measurement; interference and interferometers; optical transfer functions; coherent optical systems and holography.
Prerequisite: PHY 223
|
| |
-
PHY 451 - Lasers
(F)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Laser radiation properties, laser cavities, coherence, atomic spectra, pumping rate, power gain, threshold conditions, beam shape, mode structure; ion, molecular, solid-state, dye, semiconductor, and fiber lasers.
Prerequisite: EE 450 or PHY 450
|
| |
-
PHY 452 - Waveguides and Fiber Optics
(W)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Light propagation in fibers and waveguides; termination, coupling, and splicing of fibers; fiber optic communication; optical time domain reflectometry, fiber amplifiers, and fiber sensors.
Prerequisite: EE 450 or PHY 450
|
| |
-
PHY 453 - Optical Metrology
(S)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Modern optical metrology with emphasis on non-destructive testing; Fourier optics; Moiré and polarization methods; classic and holographic interferometry; speckle techniques; fringe analysis.
Prerequisite: EE 450 or PHY 450
|
| |
-
PHY 548 - Geometric Optics
(F)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Reflection and refraction at plane and curved surfaces; imaging properties of lenses; first order Gaussian optics and thin-lens system layout; matrix optics; ray-tracing software; spherical and chromatic aberrations.
Prerequisite: PHY 223
|
| |
-
PHY 549 - Radiometry & Optical Detection
(W)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Fundamentals of radiometry and photometry; detection of light using thermal and photon (photoemissive, photoconductive, and photovoltaic) methods; noise processes; blackbodies; charge transfer devices; spectroradiometry.
Prerequisite: PHY 223
|
| |
-
PHY 550 - Physical Optics
(S)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Spherical and planar waves; scalar diffraction theory; Fresnel and Fraunhofer diffraction and application to measurement; interference and interferometers; optical transfer functions; coherent optical systems and holography.
Prerequisite: PHY 223
|
| |
-
PHY 551 - Lasers
(F)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Laser radiation properties, laser cavities, coherence, atomic spectra, pumping rate, power gain, threshold conditions, beam shape, mode structure; ion, molecular, solid-state, dye, semiconductor, and fiber lasers.
Prerequisites: EE 450 /PHY 450 or EE 550 /PHY 550
|
| |
-
PHY 552 - Waveguides and Fiber Optics
(W)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Light propagation in fibers and waveguides; termination, coupling, and splicing of fibers; fiber optic communication; optical time domain reflectometry, fiber amplifiers, and fiber sensors.
Prerequisites: EE 450 /PHY 450 or EE 550 /PHY 550
|
| |
-
PHY 553 - Optical Metrology
(S)
Lecture Hours: 3
Lab Hours: 3
Credit Hours: 4
Modern optical metrology with emphasis on non-destructive testing; Fourier optics; Moiré and polarization methods; classic and holographic interferometry; speckle techniques; fringe analysis.
Prerequisites: EE 450 /PHY 450 or EE 550 /PHY 550
|
Political Science |
| |
-
PSCI 107 - Seminar
SS
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PSCI 201 - United States Government
(W) SS
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Basic concepts and principles of the American political system.
|
| |
-
PSCI 207 - Seminar
SS
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PSCI 250 - Introduction to World Politics
(F,S) SS
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Introduction to international relations and global issues. The rise and demise of the Cold War, international efforts towards arms control, and global environmental and economic problems.
Prerequisite: WRI 122
|
| |
-
PSCI 307 - Seminar
SS
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PSCI 407 - Seminar
SS
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PSCI 497 - United States Foreign Policy
(S) SS
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
The American foreign policy process, recurring themes in U.S. foreign policy, and the content of U.S. policy in such areas as Europe, Latin America, and the Middle East.
Prerequisite: PSCI 250
|
Polysomnographic Technology |
| |
-
PSG 107 - Seminar
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PSG 207 - Seminar
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PSG 211 - Fundamentals of PSG and Patient Care
(F,W,S)
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Basic concepts of patient care, including consideration of physical and psychological needs of the patient and family. Routine and emergency patient care procedures. Infection control procedures utilizing universal precautions. Role of the polysomnographic technologist in patient education. Ethical and legal issues.
|
| |
-
PSG 221 - Physiology of Sleep
(F,W,S)
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Introduction to sleep architecture and the function of changes in electroencephalograms, electrocardiograms, and electromyograms. Physiology of sleep-induced alterations in pharyngeal muscle tone, autonomic control and polysomnographic staging.
|
| |
-
PSG 231 - Sleep Disorders Pathology
(W)
Lecture Hours: 4
Lab Hours: 0
Credit Hours: 4
Normal and abnormal sleep disorders integrating the physiological functions of the nervous, respiratory, and cardiovascular systems. Emphasis on basic sleep sciences, physiology, diagnosis and treatment of sleep disorders.
Prerequisite: PSG 221
|
| |
-
PSG 246 - Sleep Disorders in Women
(W)
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
In-depth study of sleep disorders in women exploring: the menstrual cycle; circadian rhythms and shift working women; polycystic ovary syndrome; endometriosis, fibromyalgia; breast cancer and fatigue; pregnancy and sleep-disordered breathing; insomnia and other medically related sleep disturbances.
|
| |
-
PSG 264 - Pediatric/Neonatal Polysomnography
(F,S)
Lecture Hours: 4
Lab Hours: 0
Credit Hours: 4
Presentation of theory and its practical applications in pediatric and neonatal respiratory diseases and other sleep disorders. Includes pathophysiology, etiology, patient testing, scoring and treatment.
Prerequisite: PSG 221 or RPSGT licensed
|
| |
-
PSG 271A - Clinical Polysomnographic Technology Part A
(F,S)
Lecture Hours: 2
Lab Hours: 12
Credit Hours: 6
Medical terminology, instrumentation setup and calibration, 10/20 system, patient hookups, recording and monitoring techniques, documentation, event recognition, monitoring, therapeutic intervention, professional issues and patient-technologist interactions related to polysomnographic technology. Part-time students only, requires 18 nighttime clinical hours weekly.
Pre- or Corequisite: PSG 211
|
| |
-
PSG 271B - Clinical Polysomnographic Technology Part B
(F,W,S)
Lecture Hours: 2
Lab Hours: 12
Credit Hours: 6
Medical terminology, instrumentation setup and calibration, 10/20 system, patient hookups, recording and monitoring techniques, documentation, event recognition, monitoring, therapeutic intervention, professional issues and patient-technologist interactions related to polysomnographic technology. Part-time students only, requires 18 nighttime clinical hours weekly.
Prerequisite: PSG 271A
|
| |
-
PSG 271C - Clinical Polysomnographic Technology Part C
(W,S)
Lecture Hours: 2
Lab Hours: 12
Credit Hours: 6
Advanced aspects of polysomnographic technology including recognition of sleep disorders, recording and monitoring, therapeutic interventions, scoring, MSLT, RTSW and neurophysiology interpretation of sleep. Part-time students only, requires 18 daytime clinical hours weekly.
Prerequisite: PSG 271B
|
| |
-
PSG 272 - Clinical Polysomnographic Technology I
(F,W,S)
Lecture Hours: 2
Lab Hours: 27
Credit Hours: 9
Medical terminology, instrumentation setup and calibration, 10/20 system, patient hookups, recording and monitoring techniques, documentation, event recognition, monitoring, therapeutic intervention, professional issues and patient-technologist interactions related to polysomnographic technology. Requires 27 clinical hours weekly at night in the lab.
Pre- or Corequisite: PSG 211
|
| |
-
PSG 273 - Clinical Polysomnographic Technology II
(F,W,S)
Lecture Hours: 2
Lab Hours: 27
Credit Hours: 9
Advanced aspects of polysomnographic technology including recognition of sleep disorders, recording and monitoring, therapeutic interventions, scoring, Multiple Sleep Latency Test. Repeated Test of Sustained Wakefulness and neurophysiology interpretation of sleep. Requires 27 clinical hours weekly during the day and night.
Prerequisite: PSG 272
|
| |
-
PSG 291 - Clinical Sleep Educator
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Examination of the sleep technologist’s increasing involvement in the identification, treatment and long term monitoring of patients presenting with insomnia, sleep apnea, and poor sleep hygiene. Review of the Clinical Sleep Educator certificate offered by the BRPT.
Prerequisite: PSG 221
|
Psychology |
| |
-
PSY 107 - Seminar
SS
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PSY 110 - Human Services Careers
(S) SS
Lecture Hours: 1
Lab Hours: 0
Credit Hours: 1
Presentation and discussion of career options of psychology majors.
|
| |
-
PSY 201 - Psychology
(F,W,S) SS
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Introduction to the principles and applications of psychology. Topics include scientific methodology, learning, memory, cognition, and intelligence.
|
| |
-
PSY 202 - Psychology
(F,W) SS
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Introduction to the principles and applications of psychology. Topics include the brain and behavior, consciousness, sensation and perception, health psychology, motivation, and emotion.
|
| |
-
PSY 203 - Psychology
(W,S) SS
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Introduction to the principles and applications of psychology. Topics include social psychology, personality, abnormal psychology, psychotherapy, and development.
|
| |
-
PSY 207 - Seminar
SS
Credit Hours: (Hours to be arranged each term.)
|
| |
-
PSY 215 - Abnormal Psychology I
(F) SS
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Overview of biological, psychological, and social causes of abnormal behavior. Specific topics include models, classification and assessment of abnormal behavior, as well as anxiety, somatoform, dissociative, personality, impulse, alcohol and substance abuse disorders.
Prerequisite: PSY 203 or instructor consent
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PSY 216 - Abnormal Psychology II
(W,S) SS
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Overview of legal and ethical issues related to abnormal psychology. Techniques of group and individual therapy. Specific disorders include: sexual and gender identity, mood, schizophrenia, cognitive, and childhood and adolescence.
Prerequisite: PSY 215 or instructor consent
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PSY 220 - Community Psychology
(F,S) SS
Lecture Hours: 3
Lab Hours: 0
Credit Hours: 3
Provides a comprehensive understanding of community mental health, social ecology, and program planning/evaluation at the community level. Focuses on understanding community-based research and practice. Critical thinking regarding community and environmental factors and application of theory to solve community problems.
Prerequisite: PSY 203
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