Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 General principles of Eddy Current Testing including theory, knowledge and skills for basic examination; effects of material properties, probe types, calibration standards and equipment selection.
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 Overview on the theory and principles of NDT testing methods to include Liquid Penetrant, Magnetic Particle, Radiographic, Eddy Current, and Ultrasonic. An extensive review of the Codes & Standards that apply to aviation and other industries.
NDTE 1372 - Introduction to NDT/NAS Codes and Standards
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Overview on the theory and principles of NDT testing methods to include Liquid Penetrant, Magnetic Particle, Radiographic, Eddy Current, and Ultrasonic. An extensive review of the Codes & Standards that apply to aviation and other industries.
Semester Hours: 4 Lecture Hours: 2 Laboratory Hours: 6 Basic theory and applications of the ultrasonic techniques of materials testing covering the theoretical material from the certification test for Ultrasonic Level I American Society of Nondestructive Testing.
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Theoretical study and practical application of the nondestructive testing technique of penetrant and magnetic particle testing required by quality assurance and test personnel including proper test technique, or combination of techniques and interpretation, evaluation of test results.
Semester Hours: 4 Lecture Hours: 2 Laboratory Hours: 6 Designed to strengthen the students’ knowledge and skills in ultrasonic testing. Emphasis is on examination metal welds, characterization of flaws, immersion testing, written practices and procedures. Required Prerequisite(s):NDTE 1405
Semester Hours: 4 Lecture Hours: 2 Laboratory Hours: 6 Advanced study of Radiography testing that provides the student classroom training and hands on applications. The student will progress through a series of lessons and gain demonstrated abilities comparable to a Level II technician. The classroom and lab training will meet the requirements for SNT-TC-1A and NAS-410. Required Prerequisite(s):NDTE 1371
NDTE 2474 - Emerging Technologies in Nondestructive Techniques
Semester Hours: 4 Lecture Hours: 2 Laboratory Hours: 4 A study in advanced techniques for nondestructive testing and inspection of aircraft and components to include metallic and composite structures. Includes shearography, phased array and other emerging methods. Required Corequisite(s):NDTE 2401 and NDTE 2572
Semester Hours: 5 Lecture Hours: 3 Laboratory Hours: 5 Advanced study of Eddy Current Testing that provides the student classroom training and hands on applications. The student will progress through a series of lessons and gain demonstrated abilities comparable to a Level II technician. The classroom and lab training will meet the requirements of SNT-TC-1A and NAS -410. Required Prerequisite(s):NDTE 1340
NMTT 1266 - Practicum I-Nuclear Medicine Technology
Semester Hours: 2 Lecture Hours: 0 Laboratory Hours: 16 Practical general workplace training supported by an individualized learning plan develop by the employer, college and student. Required Prerequisite(s):BIOL 2401, BIOL 2402, and MATH 1314
NMTT 1267 - Practicum II-Nuclear Medicine Technology
Semester Hours: 2 Lecture Hours: 0 Laboratory Hours: 20 Practical general workplace training supported by an individualized learning plan developed by the employer, college and student. Required Prerequisite(s):BIOL 2401, BIOL 2402, and MATH 1314
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 3 Introduction to the field of nuclear medicine with emphasis on the principles of radiation safety, health physics, and the various studies performed in a nuclear medicine area. Required Prerequisite(s):BIOL 2401
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 2 Theory and application of electronic instrumentation used in the direction and analysis of ionizing radiation with special emphasis on gamma spectrometry and quality assurance relevant to nuclear medicine instruments. Required Prerequisite(s):BIOL 2401, BIOL 2402, MATH 1314, and CHEM 1405
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 A comprehensive study of the physical principles associated with nuclear medicine and allied health physics. Identify atomic and nuclear structure; describe energy relationships; distinguish radioactivity as a consequence of nuclear instabilities, decay modes, radiations emitted, and interactions with matter; utilize mathematics for calculation of radioactivity and photon attenuation in matter; analyze statistical analyses related to nuclear medicine physics; and solve problems dealing with topics
such as force, work, energy, frequency, and wave length. Required Prerequisite(s):SCIT 1320
Semester Hours: 2 Lecture Hours: 1 Laboratory Hours: 3 Focus on the basic principles involved in all diagnostic and therapeutic tests and procedures normally found in a nuclear medicine facility with emphasis on anatomy, physiology, pathology, radiopharmaceuticals, instrumentation, data analysis, and diagnostic value. Includes the cardiovascular, respiratory, and genitourinary systems; inflammatory processes; tumors; and radionuclide therapy; and miscellaneous procedures. Required Prerequisite(s):BIOL 2401 and BIOL 2402
Semester Hours: 2 Lecture Hours: 1 Laboratory Hours: 4 A capstone course focusing on the synthesis of professional knowledge, skills and attitudes in preparation for professional employment and lifelong learning. Required Prerequisite(s):BIOL 2401, BIOL 2402, MATH 1314, and CHEM 1405
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 2 Basic concepts of radiochemistry and radiopharmacy including the atomic structure, radioactive decay, and production of various radionuclides. Emphasis on radiopharmaceuticals and their ideal characteristics, biodistribution, and clinical applications; the various dosage forms in which they may be dispensed; quality control test; and their formation an dispensing.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Focus on the basic principles involved in all diagnostic and therapeutic tests and procedures normally found in a nuclear medicine facility with emphasis on anatomy, physiology, pathology, radiopharmaceuticals, instrumentation, data analysis, and diagnostic value. Includes the cardiovascular, respiratory, and lymphatic systems; the adrenal and parathyroid glands; tumors; and inflammatory processes; and miscellaneous procedures. Required Prerequisite(s):BIOL 2401, BIOL 2402, MATH 1314, and CHEM 1405
NMTT 2333 - Positron Emission Tomography (PET) and Fusion Technology
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Advanced study in the field of positron emission tomography and fusion technology. Required Prerequisite(s):BIOL 2401, BIOL 2402, MATH 1314, and CHEM 1405 Recommended Prerequisite(s):NMTT 1309
NMTT 2366 - Practicum III (or Field Experience)-Nuclear Medical Technology
Semester Hours: 3 Lecture Hours: 0 Laboratory Hours: 24 Practical general workplace training supported by an individualized learning plan developed by the employer, college and student. Required Prerequisite(s):BIOL 2401, BIOL 2402, and MATH 1314
NMTT 2467 - Practicum IV (or Field Experience)-Nuclear Medicine Technology
Semester Hours: 2 Lecture Hours: 0 Laboratory Hours: 32 Practical general workplace training supported by an individualized learning plan developed by the employer, college and student. Required Prerequisite(s):BIOL 2401, BIOL 2402, and MATH 1314
OSHT 1305 - OSHA Regulations -Construction Industry
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 A study of Occupational Safety and Health Administration (OSHA) regulations pertinent to the construction industry.
OSHT 1313 - Accident Prevention, Inspection and Investigation
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Provides a basis for understanding the nature of occupational hazard recognition, accident prevention, loss reduction, inspection techniques, and accident investigation analysis.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Study of fire protection systems and their application with emphasis on the fire prevention codes and standards.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Examine the major safety management issues that affect the workplace including safety awareness, loss control, regulatory issues, and human behavior modification.
OSHT 2320 - Safety Training Presentation Techniques
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Principles of developing and presenting effective industrial and business training. Emphasis on instructor qualifications and responsibilities, principles of teaching including use of teaching aids and presentation skills.
OSHT 2388 - Internship -Occupational Safety and Health Technology/Technician
Semester Hours: 3 Lecture Hours: 0 Laboratory Hours: 9 A work-based learning experience that enables the student to apply specialized occupational theory, skills, and concepts. A learning plan is developed by the College and employer.
Semester Hours: 4 Lecture Hours: 4 Laboratory Hours: 0 A study of Occupational Safety and Health Administration (OSHA) regulations pertinent to general industry.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 A study of major issues in philosophy and/or the work of major philosophical figures in philosophy. Topics in philosophy may include theories of reality, theories of knowledge, theories of value, and their practical applications. Required Prerequisite(s): TSI Met in Reading and Writing
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 A comparative study of world religions, including but not limited to Hinduism, Buddhism, Judaism, Christianity, and Islam. A one semester survey course.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 The purpose of the course is to introduce the student to symbolic logic, including syllogisms, propositional and predicate logic, and logical proofs in a system of rules.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 The systematic evaluation of classical and/or contemporary ethical theories concerning the good life, human conduct in society, morals, and standards of values.
PHIL 2307 - Introduction to Social & Political Philosophy +
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 A study of major issues in social and political theory and/or the work of major philosophical figures in this area.
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 An introduction to computer and software instruction for imaging. Includes color, gray scale, image conversion, presentation, and ethics. Recommended Prerequisite(s):ARTS 2356
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 A study of formal, professional, and individual uses of photography by applying photographic technology to personalized needs. Emphasis on creative visual thinking, problem solving, and the exploration of personal vision. Portfolio development and presentation are also covered. Recommended Prerequisite(s):ARTS 2356 or consent of instructor
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 Skill development in the photographic principles of portrait lighting, posing, and subject rapport. Required Prerequisite(s):ARTS 2356 or consent of the instructor
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 Study of the equipment, processes, and procedures necessary for the photography of building exteriors and interiors, dusk/night and night architectural landscapes, and construction progress. Required Prerequisite(s):ARTS 2356 or consent of the instructor
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 A culmination experience for the evaluation of the student’s photographic competencies. Includes association with a professional photographic organization, completion of portfolio, professional self-presentation, comprehensive exam, and seminars in areas of photographic interest.
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 Advanced concepts in the use of the computer and software for photographic manipulation and output.
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Fundamental principles of physics, using algebra and trigonometry; the principles and applications of classical mechanics and thermodynamics, including harmonic motion, mechanical waves and sound, physical systems, Newton’s Laws of Motion, and gravitation and other fundamental forces; with emphasis on problem solving. Laboratory activities will reinforce fundamental principles of physics, using algebra and trigonometry; the principles and applications of classical mechanics and thermodynamics, including harmonic motion, mechanical waves and sound, physical systems, Newton’s Laws of Motion, and gravitation and other fundamental forces; emphasis will be on problem solving. Required Prerequisite(s):MATH 1314 and MATH 1316 or MATH 2412
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Fundamental principles of physics, using algebra and trigonometry; the principles and applications of electricity and magnetism, including circuits, electrostatics, electromagnetism, waves, sound, light, optics, and modern physics topics; with emphasis on problem solving. Laboratory activities will reinforce fundamental principles of physics, using algebra and trigonometry; the principles and applications of electricity and magnetism, including circuits, electrostatics, electromagnetism, waves, sound, light, optics, and modern physics topics; with emphasis on problem solving. Required Prerequisite(s):PHYS 1401
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Study of stars, galaxies, and the universe outside our solar system. Laboratory requires night observations.
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Study of the sun and its solar system, including its origin. Laboratory requires night observations.
PHYS 1405 - Elementary Physics I (Lecture + Lab) +
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 The first semester of a two semester conceptual level survey of topics in physics intended for liberal arts and other non-science majors. Topics include classical mechanics, atomic nature of matter and thermodynamics. The history of scientific developments and their impact on daily life are discussed. Required Prerequisite(s): TSI Met in Algebraic Math pathway
PHYS 1407 - Elementary Physics II (Lecture + Lab) +
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 The second semester of a two-semester conceptual level survey of topics in physics intended for liberal arts and other non-science majors. Topics include mechanical waves and acoustics, electricity and magnetism, light, atom and nuclear physics and relativity. Required Prerequisite(s):PHYS 1405
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Course, designed for non-science majors, that surveys topics from physics, chemistry, geology, astronomy, and meteorology.
Semester Hours: 2 Lecture Hours: 1 Laboratory Hours: 3 An instructional program designed to integrate on-campus study with practical hands-on work experience in the physical sciences. In conjunction with class seminars, the individual students will set specific goals and objectives in the scientific study of inanimate objects, processes of matter and energy, and associated phenomena.
Semester Hours: 3 Lecture Hours: 1 Laboratory Hours: 5 An instructional program designed to integrate on-campus study with practical hands-on work experience in the physical sciences. In conjunction with class seminars, the individual students will set specific goals and objectives in the scientific study of inanimate objects, processes of matter and energy, and associated phenomena.
PHYS 2425 - University Physics I (Lecture + Lab) +
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Fundamental principles of physics, using calculus, for science, computer science, and engineering majors; the principles and applications of classical mechanics, including harmonic motion, physical systems and thermodynamics; and emphasis on problem solving. Basic laboratory experiments supporting theoretical principles presented in lecture involving the principles and applications of classical mechanics, including harmonic motion and physical systems; experimental design, data collection and analysis, and preparation of laboratory reports. Required Prerequisite(s):MATH 2413
PHYS 2426 - University Physics II (Lecture + Lab) +
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Principles of physics for science, computer science, and engineering majors, using calculus, involving the principles of electricity and magnetism, including circuits, electromagnetism, waves, sound, light, and optics. Laboratory experiments supporting theoretical principles presented in the lecture involving the principles of electricity and magnetism, including circuits, electromagnetism, waves, sound, light, and optics; experimental design, data collection and analysis, and preparation of laboratory reports. Required Prerequisite(s):PHYS 2425 and MATH 2414
PLTC 1291 - Special Topics in Plastics Technology/Technician
Semester Hours: 2 Lecture Hours: 1 Laboratory Hours: 2 Topics address recently identified current events, skills, knowledge, and/or attitudes and behaviors pertinent to the technology or occupation and relevant to the professional development of the student. This course was designed to be repeated multiple times to improve student proficiency. Required Prerequisite(s):AERM 1254 and PLTC 1303
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 2 An introductory course in techniques of combining various types of reinforcing elements with a polymer resin to yield specific characteristics and properties. Recommended Prerequisite(s):AERM 1254
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 2 Skill development in concepts, procedures, and application of spreadsheets. This course is designed to be repeated multiple times to improve student proficiency. Recommended Prerequisite(s):POFT 1127 or equivalent
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 2 Word processing software focusing on business applications. This course is designed to be repeated multiple times to improve student proficiency. Recommended Prerequisite(s):POFT 1127 or equivalent
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 2 In-depth coverage of desktop publishing terminology, text editing, and use of design principles. Emphasis on layout techniques, graphics, multiple page displays, and business applications. This course is designed to be repeated multiple times to improve student proficiency. Recommended Prerequisite(s):POFT 1329 or proficiency in word processing software
Semester Hours: 1 Lecture Hours: 0 Laboratory Hours: 3 Skill development in keyboarding techniques. Emphasis on the development of acceptable speed and accuracy.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Introduction to a practical application of basic language usage skills with emphasis on fundamentals of writing and editing for business.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Introduction to basic records information management systems including manual and electronic filing.
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 2 Skill development keyboarding techniques. Emphasis on development of acceptable speed and accuracy levels and formatting basic documents. Placement test available.
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 2 Study of current office procedures, duties, and responsibilities applicable to an office environment. Recommended Prerequisite(s): Basic Keyboarding Skills
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 Fundamentals of baking including dough, quick breads, pies, cakes, cookies, and tarts. Instruction in flours, fillings, and ingredients. Topics include baking terminology, tool and equipment use, formula conversions, functions of ingredients, and the evaluation of baked products.
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 Concentration on fundamentals of chemically and yeast raised breads and rolls. Instruction on commercial preparation of a wide variety of products. Identify and explain baking terms, ingredients, equipment, and tools; scale and measure ingredients; convert and cost recipes; safely operate baking equipment and tools; and prepare yeast and quick breads and rolls to a commercially acceptable standard. Required Prerequisite(s):PSTR 1301 and CHEF 1305 with a “C” or better.
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 Focus on preparation of American and European style pie and tart fillings and dough, cookies, teacakes, custard and batters. Instruction of finishing and presentation techniques. Produce a variety of commercially acceptable pies, tarts, teacakes and cookies; identify and produce finishing and presentation techniques. Required Prerequisite(s):PSTR 1301 and CHEF 1305 with a minimum grade of C.
Semester Hours: 4 Lecture Hours: 2 Laboratory Hours: 4 Advanced baking techniques to include volume production of a variety of breads and desserts. Demonstrate advanced baking techniques in the quantity production of breads and desserts to meet commercially acceptable standards. Licensing/Certification Agency: American Culinary Federation Educational Institute Required Prerequisite(s):PSTR 1301 and CHEF 1305 with a minimum grade of C.
Semester Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 A study of classical desserts, French and international pastries, hot and cold desserts, ice creams and ices, chocolate work, and decorations. Apply pastry shop techniques including recipe modifications; prepare laminated dough’s, choux, pastries, meringues, creams, custards, puddings, and related sauces; and prepare a variety of hot soufflés, fritters, crepes, cobblers, crisps and assorted inlays to include sugars and chocolates. Emphasis on advanced techniques. Required Prerequisite(s):PSTR 1301 and CHEF 1305 with a minimum grade of C.
Semester Hours: 1 Lecture Hours: 1 Laboratory Hours: 0 Facilitates adjustment to college. Standardized tests and counseling offered to provide personal, vocational, and educational development.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 A study of the 1) research and theory in the psychology of learning, cognition, and motivation; 2) factors that impact learning; and 3) application of learning strategies. Theoretical models of strategic learning, cognition, and motivation serve as the conceptual basis for the introduction of college-level student academic strategies. Students use assessment instruments (e.g., learning inventories) to help them identify their own strengths and weaknesses as strategic learners. Students are ultimately expected to integrate and apply the learning skills discussed across their own academic programs and become effective and efficient learners. Students developing these skills should be able to continually draw from the theoretical models they have learned. (A student may NOT earn credit for both EDUC 1300 and PSYC-1300) NOTE: While traditional study skills courses include some of the same learning strategies - e.g., note-taking, reading, test preparation etc. - as learning framework courses, the focus of study skills courses is solely or primarily on skill acquisition. Study skills courses, which are not under-girded by scholarly models of the learning process, are not considered college-level, and, therefore, are distinguishable from Learning Framework courses.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 A survey of the major psychological topics, theories and approaches to the scientific study of behavior and mental processes. Required Prerequisite(s): TSI Met in Reading and Writing
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 This course will provide an overview of the broad field of human sexuality. Topics will be covered from various perspectives – biological, sociological, anthropological, etc., but will focus primarily on the psychological perspective. The goal is for each student to learn factual, scientifically-based information that will provoke thought and contribute to his/her own decision-making on sexual issues outside of the classroom.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 This course will address psychological development from conception through middle childhood with references to physical, cognitive, social and personality changes. Students will examine the interplay of biological factors, human interaction, social structures and cultural forces in development. Recommended Prerequisite(s):PSYC 2301
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Life-Span Growth and Development is a study of social, emotional, cognitive and physical factors and influences of a developing human from conception to death. Recommended Prerequisite(s):PSYC 2301
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Study of the processes involved in adjustment of individuals to their personal and social environments.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Study of various approaches to determinants, development, and assessment of personality. Includes contemporary theories of personality with emphasis on personality dynamics. Individual personality trends stressed with attention to group interaction. Recommended Prerequisite(s):PSYC 2301
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 This course covers descriptive and inferential statistics used in psychological research and assessment. It includes measurement, characteristics of distributions; measures of central tendency and variability; transformed scores; correlation and regression; probability theory; and hypotheses testing and inference. (PSYC 2317 is included in the Psychology Field of Study.) Required Prerequisite(s):PSYC 2301 and MATH 1314
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Study of individual behavior within the social environment. Topics may include socio-psychological processes, attitude formation and change, interpersonal relations, group processes, self, social cognition, and research methods. (PSYC 2319 is included in the Psychology Field of Study.) A student may NOT earn credit for both PSYC-2319 and SOCI 2326. Required Prerequisite(s):PSYC 2301
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 This course provides an introduction to the psychological, biological, and socio-cultural factors involved in the development, diagnosis, and treatment of psychological disorders. It includes a review of the historical understanding of abnormal behavior and the development of modern diagnostic systems. It includes discussion of psychological research and practice as it relates to mental health and psychological functioning, as well as legal and ethical issues. (PSYC 2320 is included in the Psychology Field of Study.) Required Prerequisite(s):PSYC 2301
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 An introduction to the biological bases of behavior. Topics include evolution, genetics, research methods in behavioral neuroscience, motivation and emotion, sensation and perception, learning and memory, lifespan development, cognition, psychological disorders, and other complex behaviors. (PSYC 2330 is included in the Psychology Field of Study.) Required Prerequisite(s):PSYC 2301
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 An examination of evidenced-based and contemporary counseling theories which may include psychodynamic, cognitive, behavioral and humanistic.
PSYT 2345 - Principles of Behavior Management and Modification
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 An analysis of behavior management and cognitive theories and techniques with emphasis on their applications.
Semester Hours: 2 Lecture Hours: 2 Laboratory Hours: 0 Introduction to the profession of physical therapy and the role of the physical therapist assistant.
Semester Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Study of the pathophysiology of diseases/conditions encountered in physical therapy. (Enrollment in this course is restricted to students who have been accepted to the Physical Therapist Assistant program. This course does not replace HPRS 2201.)
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 4 The relationship of the musculoskeletal and neuromuscular systems to normal and abnormal movement.
Semester Hours: 2 Lecture Hours: 2 Laboratory Hours: 0 Discussion of professional issues and behaviors related to clinical practice; preparation for transition into the workforce.
Semester Hours: 3 Lecture Hours: 0 Laboratory Hours: 15 A health-related work-based learning experience that enables the student to apply specialized occupational theory, skills, and concepts. Direct supervision is provided by the clinical professional.
Semester Hours: 3 Lecture Hours: 0 Laboratory Hours: 15 A health-related work-based learning experience that enables the student to apply specialized occupational theory, skills, and concepts. Direct supervision is provided by the clinical professional.
Semester Hours: 3 Lecture Hours: 0 Laboratory Hours: 15 A health-related work-based learning experience that enables the student to apply specialized occupational theory, skills, and concepts. Direct supervision is provided by the clinical professional. This is the Capstone clinical experience.
Semester Hours: 4 Lecture Hours: 3 Laboratory Hours: 4 Concepts, principles, and application of techniques related to therapeutic exercise and functional training.