Technology — Pre-Architecture Technology — Pre-Architecture Sophomore Course Title A W S Math 53, 54, 121 Calculus Engineering Math 4 4 4 Physics 61, 62, 63 Engineering Physics 4 4 4 Physics 64, 65, 66 Physics Laboratory 1 1 1 Pre-Engineering 150, 152 Statics, Dynamics 4 4 Pre-Engineering 21 Electric Circuits 5 English 3 Basic Communications 3 General Education* Area Requirements 5 4 17 17 18 Students majoring in Engineering who find it advisable to spend more than two years at Weber State College may elect to take any of the following suggested courses: Course Title A W S Pre-Engineering 4, 6 Pre-Engineering 151 Math 121, 122, 123 Surveying Strength of Materials Mathematical Methods in 4 3 4 Pre-Engineering 111, 112 Physics 167, 168, 169 Physics 111, 112, 113 Mathematics 161, 162 Engineering & Physics Electric Circuits Modern Physics Analytical Mechanics 4 4 3 4 4 4 3 4 4 4 3 163 Advanced Calculus 4 4 4 General Education Requirements PRE-ARCHITECTURE Any Pre-Architecture student contemplating registering at Weber State College should arrange for a personal interview with Mr. G. M. Alexander, Pre-Architecture advisor, well before registration. Applicants must satisfy the admission requirements of Weber State College and for full matriculation must satisfy the requirements outlined by the Pre-Engineering Department at Weber State College. Mathematics courses are a required part of the Pre-Architecture curriculum. Mathematics placement tests are required of all entering and returning mathematics students. See Mathematics section of this catalog. "Chemical Engineers should take Chemistry 131 and 132 in place of general education classes. The sample curriculum is designed for those students who plan to attend Weber State College for no more than two years before entering an accredited school of Architecture. Courses of Instruction 4. Mechanics Applied—Fundamental principles of materials, equilibrium of forces, simple machines, bridge and roof trusses, centroids, and moment of inertia. Prerequisite: Mathematics 18. Four periods a week. A (4) Alexander 5. Structural Design Applied—Bar Stress for fixed and moving loads and design of beam and truss members. Prerequisite: Mathematics 18. Two lectures and two laboratory periods a week. S (4) 6. Reinforced Concrete Design Applied—Design and control of concrete mixtures, area footings and sizes and strength of reinforced columns. Prerequisite: Mathematics 18. One lecture and three laboratory periods a week. S (4) Staff 10. History of Architecture—Architectural origins and early forms; primitive, Egyptian, Aegean; summation of early types. Three lectures a week. S (3) Staff 11. Mechanical Equipment of Buildings—Heating requirements, ventilation, plumbing and drainage, refrigeration and air conditions. Prerequisite: Physics 51. One lecture and two laboratory periods a week. S (4) Staff 15. Elements of Applied Electricity—Electricity as applied to buildings, conductors, wire capacities, and standard practices. Prerequisite: Physics 51. Three lectures and two laboratory periods a week. S (5) Staff 27. Estimating and Building Contracts—Figuring material and labor costs, profit and overhead as applied to buildings. Prerequisite: Architectural Technology 31 or equivalent. One lecture and two laboratory periods a week. S (3) Alexander 30. Architectural Drawing (Elementary)—A course in materials symbols, plot plans, drawing and detailing of contemporary homes. Prerequisite: Engineering 2 or Intermediate Mechanical Drawing. Individual instruction. Two laboratory periods a week. A W S (2) Alexander 31. Architectural Drawing—Material symbols, plot plans, drawing and detailing of small homes. Prerequisite: Engineering 2. One lecture and two laboratory periods a week. A (3) 32. Architectural Drawing, Advanced—Special features of construction. Prerequisite: Architectural Technology 31. One lecture and two laboratory periods a week. W (3) Alexander 326 327