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ENGINEERING 171
r
126. Pavement and Drainage Design (2)
Prerequisite: Engr 137 (or concurrently). Factors affecting drainage and loadbearing
elements of transportation facilities. Capacity design of drainage facilities.
Structural design of highway and airfield pavements.
130. Engineering Mechanics: Dynamics {3)
Prerequisite: Engr 30. Application of principles of kinematics and kinetics to
problems in engineering.
131. Mechanics of Materials {3}
Prerequisite: Engr 30. Application of principles of mechanics to find stresses and
deformations in machine and structural m(:mbers.
131L. Mechanics of Materials Laboratory (1)
Prerequisite: Engr 32; 131 (or concurrently). Application of the principles and
methods of testil"!g to verify theory and determine limitations of principles of
mechanics of materials. (3 lab hours)
132. Strength of Construction Materials {3)
Prerequisite: Phys 2A. Stress and deflections in steel and wood structures and in
fonnwork for concrete structures.
132L. Strength of Construction Materials Lab (1)
Prerequisite: Engr 132 (or concurrently). Application of testing procedures to
determine and verify limitations on the use of construction materials.
133. Steel and Timber Structures {3)
Prerequisite: Engr 135. Steel and timber members for buildings and bridges
designed for dead, live, impact, wind, and seismic forces; light gage and plastic
steel design. (2 lecture, 3 lab hours)
134. Reinforced Concrete {3}
Prerequisite: Engr 135. Design and investigation of concrete structures by elastic
and ultimate design procedures; prestressed concrete. (2 lecture, 3 lab hours)
135. Theory of Structures (3}
Prerequisite: Engr 131. Trusses and frames analyzed by algebraic and graphic
procedures; influence lines and live loading analysis; rigid frames analyzed by slope
defl.eorion and moment distribution. Introduction to matrix method.
136. Physical Metallurgy (2)
Prerequisite: Engr 131L. Physical properties of metals as manufactured and affected
by heat-treatment and fonning processes; correlation of properties with
microstructure. (1 lecn1re, 3 lab hours)
137. Soil Mechanics (2)
Prerequisite: Engr 131. Physical nnd mechanical propenies of soil as an engineering
material; theoreticaJ studies in pcrmeabilicy, compressibilicy, stress-deformation,
and strength characteristics.
137L. Soil Mechanics Laboratory (1)
Prerequisite: Engr 13 7 (or concurrent), 131L. Experiments to illustrate and
amplify the principles of soil mechanics. (3 lab hours, field trips required)
139. Advanced Mechanics of Materials (3)
Prerequisite: Engr 70, 131; Math 81. Advanced topics in mechanics of materials.
Object Description
| Title | 1971-72 General Catalog |
| Creator | Fresno State College |
| Format | PDF Document |
| Date of publication | 1971-05 |
| Subjects | California State University, Fresno. Curricula. Catalogs |
| Object type | Document |
| Location | Fresno, California |
| Language | eng |
Description
| Title | Page 171 |
| Full Text Search | ENGINEERING 171 r 126. Pavement and Drainage Design (2) Prerequisite: Engr 137 (or concurrently). Factors affecting drainage and loadbearing elements of transportation facilities. Capacity design of drainage facilities. Structural design of highway and airfield pavements. 130. Engineering Mechanics: Dynamics {3) Prerequisite: Engr 30. Application of principles of kinematics and kinetics to problems in engineering. 131. Mechanics of Materials {3} Prerequisite: Engr 30. Application of principles of mechanics to find stresses and deformations in machine and structural m(:mbers. 131L. Mechanics of Materials Laboratory (1) Prerequisite: Engr 32; 131 (or concurrently). Application of the principles and methods of testil"!g to verify theory and determine limitations of principles of mechanics of materials. (3 lab hours) 132. Strength of Construction Materials {3) Prerequisite: Phys 2A. Stress and deflections in steel and wood structures and in fonnwork for concrete structures. 132L. Strength of Construction Materials Lab (1) Prerequisite: Engr 132 (or concurrently). Application of testing procedures to determine and verify limitations on the use of construction materials. 133. Steel and Timber Structures {3) Prerequisite: Engr 135. Steel and timber members for buildings and bridges designed for dead, live, impact, wind, and seismic forces; light gage and plastic steel design. (2 lecture, 3 lab hours) 134. Reinforced Concrete {3} Prerequisite: Engr 135. Design and investigation of concrete structures by elastic and ultimate design procedures; prestressed concrete. (2 lecture, 3 lab hours) 135. Theory of Structures (3} Prerequisite: Engr 131. Trusses and frames analyzed by algebraic and graphic procedures; influence lines and live loading analysis; rigid frames analyzed by slope defl.eorion and moment distribution. Introduction to matrix method. 136. Physical Metallurgy (2) Prerequisite: Engr 131L. Physical properties of metals as manufactured and affected by heat-treatment and fonning processes; correlation of properties with microstructure. (1 lecn1re, 3 lab hours) 137. Soil Mechanics (2) Prerequisite: Engr 131. Physical nnd mechanical propenies of soil as an engineering material; theoreticaJ studies in pcrmeabilicy, compressibilicy, stress-deformation, and strength characteristics. 137L. Soil Mechanics Laboratory (1) Prerequisite: Engr 13 7 (or concurrent), 131L. Experiments to illustrate and amplify the principles of soil mechanics. (3 lab hours, field trips required) 139. Advanced Mechanics of Materials (3) Prerequisite: Engr 70, 131; Math 81. Advanced topics in mechanics of materials. |
