112 17. Entomology. An elementary course in entomology; the anatomy, classification, life histories, and economic importance of insects. Two lectures and one laboratory period a week. Three quarter hours. Summer. Young 20. Elementary Ornithology. The local avifauna and their importance to man. The natural history and need of wise conservation are stressed. Two lectures and one laboratory or field trip a week. Three quarter hours. Autumn, Summer. Smart 25. Elementary Mammalogy. The mammals of Utah and surrounding regions. Identification and natural history are emphasized. Field trips, including trapping, will stress ecology and relations to man. Two lectures and one laboratory field trip a week. Three quarter hours. Spring, Summer. Smart Department of Radiobiology S. P. Hayes (Advisor), D. Kida,* J. F. Merrill,* R. L. Nichols,* J. F. Stuck!,* A. Tanner* Weber College and the Thomas D. Dee Memorial Hospital jointly conduct an affiliated college-hospital X-Ray technician program designed to train professionally qualified personnel in X-Rav procedures. At the completion of this program students will be prepared to take the qualifying examination of the American Society of X-Ray Technicians. X-Ray Technician Curriculum First Yeear Course A W S Su Orientation 1 2 English 1, 2, 3 3 3 3 Physiology 1 5 Nursing 1 _ 2 Physical Education 1, (11) Ill Health Education 1, 5 2 2 Bacteriology 1 5 Photography 1 4 Chemistry 1 5 Psychology 1 5 Nursing 27 3 Social Sciences 5 Radiobiology 1, 3, 5 12 3 14 17 16 11 Second Year Course A W S Humanities 3 Physics 4, 5, 6** 5 5 5 Radiobiology 10, 11, 12 8 8 8 Radiobiology 15, 20 2 2 16 15 15 ♦Member of the Thomas D. Dee Memorial Hospital Staff participating in the X-Ray Technician Program. •♦Students entering program with a deficiency in Mathematics viz., Intermediate Algebra and Trigonometry (Mathematics 1, 3) may be advised to take the first course in Algebra (Mathematics 51 or equivalent) as these courses are prerequisites for Physics 4. 113 Courses if Instruction X-Ray Technicians 1. Radiological Office Procedures. Medical ethics and records of entering patients, work schedules, and personnel supervision. One lecture per week.i One quarter hour. Autumn. Tanner 3. Dark Room Techniques. Developing and processing X-Ray films, special considerations concerned. One lecture and one three- hour laboratory per week. Two quarter hours. Winter. Kida 5. X-Ray Technology. X-Ray theory with correlation of practical application designed to develop a thinking technician trained in sound principles. Two lectures and one three-hour laboratory per week. Three quarter hours. Summer. Nichols, Kida 10. Radiological Positioning. Terminology, body planes, and patient placement for radiography of the upper and lower extremities. Eight three-hour laboratory periods per week. Autumn. Nichols, Stucki, Kida 11. Radiological Positioning. Continuation of Radiobiology 10. Emphasis placed upon respiratory, digestive, reproductive and excretory systems. Eight three-hour laboratory periods per week. Eight quarter hours. Winter. Nichols, Stucki, Kida 12. Radiological Positioning. Continuation of Radiobiology 11. Planes of projection for cranial radiography and other special procedures. Eight three4iour laboratory periods per week. Eight quarter hours. Spring. Nichols, Stucki, Merrill, Kida 15. Radiological Anatomy. Special considerations for deep focus techniques involved in three dimensional projections. Two lectures per week. Two quarter hours. Winter. Nichols, Tanner 20. Radiological Physics. Energy values and calculation of minimal and optimal dosage; use of newer radiological instrumentations. Two lectures per week. Two quarter hours credit. Spring. Merrill