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11. Structural Engineering 10–15
A. Analysis of statically determinant beams, columns, trusses, and frames
B. Deflection of statically determinant beams, trusses, and frames
C. Column analysis (e.g., buckling, boundary conditions)
D. Structural determinacy and stability analysis of beams, trusses, and frames
E. Elementary statically indeterminate structures
F. Loads, load combinations, and load paths (e.g., dead, live, lateral, influence
lines and moving loads, tributary areas)
G. Design of steel components (e.g., codes and design philosophies, beams,
columns, tension members, connections)
H. Design of reinforced concrete components (e.g., codes and design
philosophies, beams, columns)
12. Geotechnical Engineering 10–15
A. Index properties and soil classifications
B. Phase relations
C. Laboratory and field tests
D. Effective stress
E. Stability of retaining structures (e.g., active/passive/at-rest pressure)
F. Shear strength
G. Bearing capacity
H. Foundation types (e.g., spread footings, deep foundations, wall footings, mats)
I. Consolidation and differential settlement
J. Slope stability (e.g., fills, embankments, cuts, dams)
K. Soil stabilization (e.g., chemical additives, geosynthetics)
13. Transportation Engineering 9–14
A. Geometric design (e.g., streets, highways, intersections)
B. Pavement system design (e.g., thickness, subgrade, drainage, rehabilitation)
C. Traffic capacity and flow theory
D. Traffic control devices
E. Transportation planning (e.g., travel forecast modeling, safety, trip
generation)
14. Construction Engineering 8–12
A. Project administration (e.g., documents, management, procurement,
project delivery methods)
B. Construction operations and methods (e.g., safety, equipment, productivity
analysis, temporary erosion control)
C. Project controls (e.g., earned value, scheduling, allocation of resources,
activity relationships)
D. Construction estimating
E. Interpretation of engineering drawings