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Show Natural Sciences Chemistry enrolled. Four lectures and one 3-hour lab a week. A 322. Plant Propagation and Growth (4) Principles and techniques of plant propagation, including both sexual and asexual methods such as seeds, bulbs, cuttings, grafting and budding. Prerequisite: Botany 111. Three lectures and one 3-hour lab a week. (Offered 1980-81 and alternate years.) S 340. Biological Literature (3) Methodology of library research including the use of standard sources, indexes and abstracts for scientific reports. Prerequisite: English 103 and Botany 111. LS341. Natural Resource Conservation (4) Proper utilization and preservation of forests, soil, wildlife and other resources. Four lectures a week. (This class cannot be used to fulfill requirments for a major or a minor in Botany.) A W S Su 34S. Plant Ecology (S) Nature and development of plant communities and their relations to the environmental factors controlling them. Prerequisites: Botany 111, 112. Four lectures and one lab a week S 347. Plant Geography (3) Distribution of plant species and communities as affected by past and present climates. Emphasis on factors and problems of distribution. Prerequisite: Botany 111. Three lectures a week. (Offered 1980-81 and alternate years.) W 360. Mycology (5) Structure, taxonomy and physiology of the fungi with emphasis upon forms important in agriculture, industry and medicine. Prerequisites: Botany 111, 112 or Microbiology 111. Three lectures and two 3-hour labs a week. (Offered 1980-81 and alternate years.) S 361. Algology (5) A study of the Biology of Algae, their morphology, cytology, development, taxonomy, ecology, economic and experimental uses. Three lectures and two 3-hour labs a week. Prerequisite: Botany 112. (Offered 1980-81 and alternate years.) A 352. Marine Biology (4) A study of marine biology and ecology, relating to the plant and animal populations of the sea to their various habitats, including the pelagic environment, the sea bottom, sea shores, and estuaries. Three lectures and one 3-hour lab a week. Prerequisites: Botany 111 and Zoology 160 or 211. Botany 112 recommended. (Offered 1979-80 and alternate years.) W LS361. Woody Plants and Man (4) Native and introduced trees and shrubs of the state. Special attention is given to the identification, culture, and economic importance. Three lectures and one 3-hour lab a week. This class cannot be used to fulfill requirements for a major or a minor. A S Su 362. Taxonomy of Vascular Plants (5) Classification, identification and phylogenetic relationships of flowering plants. Prerequisite: Botany 111. Three lectures and two 3-hour labs a week. S 364. Intermountain Flora (5) A taxonomic and ecological study of mountain, desert, marsh and aquatic plants. Emphasizes important plants for range and wildlife. Prerequisite: Botany 111. Two lectures and two 3-hour labs a week plus field trips to be arranged. (Offered 1979-80 and alternate years.) A 411. Plant Form and Reproduction (5) The development and reproduction of the Bryophytes and the higher plants. Prerequisites: Botany 111 and 112. Three lectures and two 3-hour labs a week. (Offered 1980-81 and alternate years.) S 415. Microtechnique (4) Preparation of material for microscopic examination. Prerequisite: First course in Life Sciences. Two lectures and two 3-hour labs a week. (Offered 1979-80 and alternate years.) S 421. Plant Soil Relations (5) Physiology of plant mineral and water relations. Prerequisites: Botany 111 and Chemistry 111 or 121. Four lectures and one 3-hour lab a week. (Offered 1979-80 and alternate years.) S 423. Principles of Plant Pathology (5) Fundamental principles underlying diseases in plants. Prerequisites: Botany 111 and 112. Three lectures and two 3-hour labs a week. (Offered 1979-80 and alternate years.) A 425. Radiation Biology (Same as Zoology 425) (4) Training in theory and practical application of radioactive tracer techniques to biological problems. Prerequisites: Beginning courses in Life Sciences, Chemistry and Physics. Two lectures and two 3-hour labs a week. W 434. Cytogenetics (4) Study of intracellular structures. Emphasis is upon function, structure, modification and behavior of chromosomes and their relationship with genetics and evolutionary phenomena. Prerequisites: Botany 111, Zoology 160. Two lectures and two 3-hour labs a week. (Offered 1980-81 and alternate years.) W 480. Special Problems in Botany Credit to be arranged. AWS 483. Readings in Botany (1-5) Student limited to maximum of 5 hours. A W S Su 489. Cooperative Work Experience (1-9) A continuation of Botany Department 289 Cooperative Work Experience. Open to all students. A W S Su 492. Short Courses, Workshops, Institutes and Special Programs (1-6) In order to provide flexibility and to meet many different needs, a number of specific offerings are possible using this catalog number. When the number is used it will be accompanied by a brief and specific descriptive title. The specific title with the credit authorized for the particular offering will appear on the student transcript. A W S Su 495. Field Botany (1-5) A concentrated study of the flora of a specific geographical region or an extended, organize:! field trip under proper supervision. Prerequisite: A general course in Botany. A S Su 499A. Seminar, Anatomy and Morphology (1) Prerequisites: Botany 310, 411, or 350. A 499B. Seminar, Taxonomy and Ecology (1) Prerequisites: Botany 345 or 362. W 499C. Seminar, Phvsiology and Soil Relations (1) Prerequisites: Botany 320 or 421. S DEPARTMENT OF CHEMISTRY Spencer L. Seager, Chairman Professors, Robert R. Beishline, Ervin P. Guymon, Bryant A. Miner, Spencer L. Seager, H. Stephen Stoker, Garth L. Welch; Associate Professors, Helen J. James, Michael R. Slabaugh. Description: The Department of Chemistry is approved and certified by the American Chemical Society. Two options are offered which lead to the bachelor 186 Natural Science* Chemistry of arts or bachelor of science degree in chemistry. The certification option meets all the requirements of the ACS and graduates' names are submitted to the ACS and certified by the department. The non-certified option does not meet the requirements of the ACS and is intended for students who do not plan to do graduate work in chemistry or seek employment as chemists. It is suitable for such students as pre-med, pre-dental, etc., who need a sound chemical background but will not be professional chemists. This non-certified program can be completed in two academic years after the completion of freshman chemistry. In addition, a teaching major leading to the bachelor of science degree in secondary education, a departmental minor and a teaching minor are also offered. Education: The Chemistry curriculum provides a sound foundation in both the facts and principles of chemistry. Physics and mathematics are emphasized since these subjects are essential to an adequate understanding of chemistry. The Department of Chemistry offers two beginning sequences. Chemistry 111, 112, 113 is a series for students who will (ake chemistry for one year or less. Chemistry 121, 122, 123 is the basic beginning sequence for students majoring in areas which require more than one year of chemistry. A maximum of 15 quarter hours in Chemistry 111-113 and 121-123 will be accepted toward fulfilling graduation requirements. Professional and Career Outlook: A baccalaureate degree in chemistry provides students with a sound foundation for numerous graduate school and professional programs, including: All fields of chemistry, medicine, dentistry, pharmacology, toxicology, chemical engineering and environmental science. In addition, baccalaureate degree chemists possess skills that make them employable in a number of capacities, including: Chemical analysts, lab technicians, quality controllers, clinical chemists and researchers. Program: Chemistry (ACS Certified)Bachelor Degree I. General Requirements: A. Specific course requirements of the college (see index). B. Bachelor Degree General Education requirements (see index). C. A minor is required. D. Chemistry majors must have an average G. P. A. of 2.00 or better in major courses. E. An overall G. P. A. of 2.00 or C. F. 183 total hours are required for this degree. G. Sixty of the 183 total hours must be upper division (courses numbered 300 and above). II. Specific Requirements: A. Minimum of 62 credit hours in Chemistry courses. B. Chemistry courses required: Chemistry 121 (5), 122 (5), 123 (5), 213 (5), 311 (4), 312 (4), 313 (4), 341 (4), 342 (4), 343 (4) 453 (3), 454 (5), 460 (5), 480 (2). C. Chemistry courses to elect from (3 credit hours): Chemistry 444 (3), 446 (3), 473 (3), 475 (3). D. Support courses required: Mathematics 211 (5), 212 (5), 213 (5), 320 (5); Physics 261 (4), 262 (4), 263 (4), 264 (1), 265 (1), 266 (1). E. Fifteen hours of German or 9-15 hours of computer language, or their equivalent, are recommended, but not required. Program: Chemistry (Non-certified)Bachelor Degree I. General Requirements: A. Specific course requirements of the college (see index). B. Bachelor Degree General Education requirements (see index). C. A minor is required. D. Chemistry majors must have an average G. P. A. of 2.00 or better in major courses. 187 |