Engineering Biola University, in cooperation with the University of Southern California, offers a five-year program in engineering. Students attend Biola University for three years taking courses in physics, chemistry, Biblical stud­ ies and the liberal arts. The final two years are taken in the School of Engineering at the University of Southern California. Upon completion of Biola University requirements for graduation, which would normally occur at the end of the fourth year, a student will receive a B.S. degree in Physical Science from Biola University. After completing the fifth year and the graduation requirements of the School of Engineering, a B.S. degree in Engineering will be awarded by the University of Southern California. Students interested in this program must plan their course of study with departmental approval. A student that chooses to attend another accredited engineering school other than University of Southern California may also be awarded a degree from Biola University provided the student has a 2. 75 grade point average in all subjects taken at Biola University and meets all Biola University graduation requirements with the exception of the last semester residency requirement. Specific required courses depend upon the engineering field and must be chosen in consultation with the engineering adviser. Note: Physical Science majors automatically meet the general education requirement ofeight units ofscience and mathematics. The foreign­ language requirement is met by two years in high school or first four units in college. MINORS A PHYSICAL SCIENCE MINOR is offered with the completion of Chemistry 105, 106; Physics 211, 222 and six units of upper divi­ sion Physical Science electives. A PHYs1cs MINOR is offered with the comple­ tion of 20 units consisting of Physics 211, 222, 331, 341 and 6 upper division units in Physics. COURSES GENERAL EDUCATION COURSES 101 Physical Science and Geography Survey - Lecture (4) Experimental facts and physical theory applicable in geology, meteorology; includ­ ing the basic physical elements of geogra­ phy such as climate, land forms, soils and natural vegetation and their patterns of world distribution. Either semester.

102 Physical Science and Geography Survey - La,boratory ( 1) Introductory labwork to accompany the lecture course. Must be taken concurrently or subsequent to the lecture. Three hours lab. Either semester. Lab fee: $15. 103 Geology (3) An introduction to earth science includ­ ing: processes that shape the earth's sur­ face, oceans and atmosphere; plate tecton­ ics, earth history and the fossil record, nat­ ural resources and environmental concerns. 110 Astronomy (3) Descriptive general education course, designed to acquaint the student with the current state of knowledge of the solar sys­ tem, the Milky Way, galaxies, quasars and cosmology. Three hours lecture, one hour laboratory. Field trip fee: $5. 250 Science and Origins (3) A survey of basic scientific theories, their crucial experimental evidences, and their applications in physics, chemistry, ge­ ology and astronomy. Particular attention will be given to comparison of scientific the­ ories of origins and biblical revelation. PHYSICAL SCIENCE: SCIENCE MAJORS 420 Special Projects (1-3) Research or industrial internship. To pro­ vide practical experience in a field of the stu­ dent's interest. Designed primarily for stu­ dents working off campus in a situation where special projects are possible. Prereq­ uisite: junior or senior standing with consent. 450 Special Topics in Physical Science (3) Varying course content according to stu­ dent and faculty interest. Topics such as special relativity and nuclear physics rou­ tinely offered.

PHYSICS 111 Physics I (4)

Mechanics, heat, and sound. Designed primarily for students not taking calculus. Three hours lecture and three hours labora­ tory each week. Prerequisite: Math 101 or equivalent. Lab fee $15. 122 Physics II (4) Electricity, magnetism, elementary cir­ cuits, and optics. Designed primarily for student not taking calculus. Three hours of lecture and three hours of laboratory each week. Prerequisite: 111. Lab fee $15. 211 General Physics: Mechanics (4) Elementary Newtonian mechanics; con­ servation of energy and momentum; oscilla­ tions. Prerequisite: Mathematical Sciences 105. Three hours lecture, three hours labo­ ratory. Lab fee: $20. 222 General Physics: Electricity and Magnetism (4) Electrostatics; conductors and currents; magnetic fields; electromagnetic induction; electromagnetic waves. Prerequisite: 211. Mathematical Sciences 106. Three hours lecture, three hours laboratory. Lab fee: $20. 321 Circuits and Instrumentation I (3) An introduction to electronic circuit anal­ ysis and design. Prerequisite: 222.

322 Circuits and Instrumentation II (3) A continuation of Physics 321.

331 Thermodynamics (3) Introduction to energy, heat, work, en­ tropy, temperature and states of matter. The first, second and third laws of thermo­ dynamics with an emphasis on applications. Prerequisite: 211. 332 Statistical Physics (3) Introduction to the statistical theory of physical systems. Including the theory of temperature dependent properties and rela­ tionship between statistical theory and ther­ modynamics. Prerequisite: 331. 341 Wave Motion, Optics and Special Relativity (3) Wave motion, optics and an introduction to special relativity. Prerequisite: 222. 411 Quantum Mechanics I (3) An introduction to quantum mechanics. Prerequisite: 341.

451 Technology in Community Development (3)

The principles and methods of introduc­ ing technology into non-technical, underde­ veloped communities are presented. The use of appropriate technology resource ma­ terials and field work are emphasized. This course is offered only during interterm and involves two weeks of field work in Mexico. Prerequisite: Departmental consent. Trip fee: $275 (includes room, meals and trans­ portation during the two weeks off campus).

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