ARCE–ARCHITECTURAL
ENGINEERING 2005-07 Catalog
Architectural Engineering Department
Note: All ARCE majors must obtain
a grade of C- or better in ARCE courses that are prerequisites for other ARCE courses.
ARCE 211 Structures I (3)
Introduction
to the role of structures in the making of buildings. Introduction to statics
and creation of simple three-dimensional structures. Development of
skills to analyze structures composed of axial force (truss) members. 2 lectures, 1 activity. Prerequisite: For ARCE majors: PHYS
131, MATH 142; for ARCH and CM majors: PHYS 121 or PHYS 131, MATH 142 or MATH
182.
ARCE 212 Structures II (3)
Introduction
to the role of structures in the making of buildings. Introduction to shear and moment diagrams using the
principles of statics and the application of the
diagrams to simple three-dimensional structures. Development of skills,
particularly free body diagrams, to analyze structures composed of bending
(beams) members. 2 lectures, 1 activity. Prerequisite:
ARCE 211.
ARCE 221 Elementary Structures (3)
Forces on
building structures. Static equilibrium and stability of structural systems. Shear and bending moment diagrams. 3
lectures. Prerequisite: PHYS 131, MATH 142.
ARCE 222 Introduction to Mechanics of
Structural Members (3)
Stress-strain
relationships. Stresses
and deformations in structural members due to axial force, shear, torsion, and
moment. 3 lectures. Prerequisite: ARCE 221.
ARCE 223 Mechanics of Structural Members (4)
Advanced topics of stresses
in beams: plastic and unsymmetrical bending, combined stresses, stress
transformation, buckling, and beam deflections. Material
testing laboratory. 3 lectures, 1 laboratory.
Prerequisite: ARCE 212 or ARCE 222. Concurrent: ARCE 351.
ARCE 225 Dynamics (3)
Dynamics
of particles and rigid bodies. 3 lectures. Prerequisite: ARCE 212 or ARCE 221 and MATH 241.
ARCE 226 Structural Systems for Architects (3)
Description,
behavior and comparison of structural building systems. Concepts of structural stability, load flow, framing
schemes and building configuration related to vertical and lateral loads. For architecture and construction management students. 3 lectures. Prerequisite: ARCE 212 or ARCE 222.
ARCE 227 Structural Analysis I (2)
Continuation of selected
concepts covered in ARCE 211 and ARCE 212. Advanced topics in
two-dimensional and three-dimensional equilibrium of structural building
systems. 2 lectures. Prerequisite: ARCE 222 or
ARCE 212.
ARCE 240 Additional Engineering Laboratory
(1–2)
Total credit limited to 4
units, with a maximum of 2 units per quarter. 1 or 2
laboratories.
ARCE 257 Structural CAD for Building Design (2)
Emphasis
on the use of computer graphics software to represent a building's structural
system and its individual elements.
1 lecture, 1 laboratory. Prerequisite: ARCH 123, CM
211.
ARCE 302 Structural Analysis II (4)
Analysis
of statically indeterminate structures using virtual work, slope deflection,
and the force method. Analysis of structural systems using approximate methods and
influence lines. 4 lectures. Prerequisite: ARCE
223 and ARCE 227. Concurrent: ARCE 352.
ARCE 303 Steel Design I (3)
Analysis and design of
steel structural members subjected to bending, shear and axial forces. 3 lectures. Prerequisite: ARCE 227. Concurrent: ARCE 302 and
ARCE 371.
ARCE 304 Timber Design (3)
Analysis and design of
timber structural members subjected to bending, shear, and axial forces. Wood
diaphragms, shear walls and their connections. 3 lectures.
Prerequisite: ARCE 223, ARCE 227, and ARCE 371.
ARCE 305 Masonry Design (2)
Design of
load-bearing walls, shear walls, columns and beams in masonry. 2 lectures. Prerequisite:
ARCE 223, ARCE 227 and ARCE 371.
ARCE 306 Matrix Analysis of Structures (3)
Analysis
of statically indeterminate structures by direct stiffness method including
continuous beams, plane trusses, and frames. Introduction to finite-element
methods. 3 lectures. Prerequisite: ARCE 302.
Concurrent: ARCE 353.
ARCE 311 Structures for Landscape Architects
(3)
Structural concepts related
to landscape architecture. Design of retaining walls, decks, trellises, bridges
and large-scale covered spaces. 3 lectures.
ARCE 315 Small Scale Structures (4)
Introduction
to structures that use timber and steel as the primary construction material. Introduction to gravity load carrying systems and
lateral load resisting systems using steel and timber elements. Development of skills to analyze structures using free body
diagrams and the concept of load flow. 4 lectures.
Prerequisite: ARCE 226.
ARCE 316 Large Scale Structures (4)
Introduction
to structures that use steel and concrete as the primary construction material. Introduction to gravity load carrying systems and
lateral load resisting systems using steel and concrete elements. Development of skills to analyze structures using free body
diagrams and the concept of load flow. 4 lectures.
Prerequisite: ARCE 315.
ARCE 321 Timber Structural Systems (3)
Concepts related to system
behavior; selection; design and construction specific to timber structures. Preliminary member design and detailing. Load flow
implications related to building configurations; including vertical and lateral
load resisting elements. For architecture and construction
management students. 3 lectures. Prerequisite:
ARCE 226. May not be taken concurrently with ARCE 322 or ARCE
323.
ARCE 322 Steel Structural Systems (3)
Concepts related to system
behavior; selection; design and construction specific to steel structures. Preliminary member design and detailing. Load flow
implications related to building configurations; including vertical and lateral
force resisting elements. For architecture and construction
management students. 3 lectures. Prerequisite:
ARCE 226. May not be taken concurrently with ARCE 321 or ARCE
323.
ARCE 323 Concrete Structural Systems (3)
Concepts related to system
behavior; selection; design and construction specific to concrete structures. Preliminary member design and detailing. Load flow
implications related to building configurations; including vertical and lateral
force resisting elements. Introduction to issues related to foundation design. For architecture and construction management students. 3 lectures. Prerequisite: ARCE 226. May
not be taken concurrently with ARCE 321 or ARCE 322.
ARCE 351 Structural Computing Analysis I (1)
Computer
calculations, programming basics and technical reporting. Emphasis on use of spreadsheets as
a tool to analyze building elements. 1 laboratory.
Prerequisite: ARCE 212 or ARCE 222, CSC 231 or CSC 234 or approved equivalent.
Concurrent: ARCE 223.
ARCE 352 Structural Computing Analysis II (1)
Computer
calculations, programming and technical reporting. Emphasis on use of two-dimensional
structural analysis software to analyze a building's structural system and its
individual elements. 1 laboratory.
Prerequisite: ARCE 223, ARCE 351. Concurrent: ARCE 302.
ARCE 353 Structural Computing Analysis III (1)
Emphasis
on the use of nonplanar structural analysis software
to analyze a building's structural system and its individual elements. 1 laboratory. Prerequisite:
ARCE 302, ARCE 352. Concurrent: ARCE 306.
ARCE 371 Structural Systems Laboratory (3)
Studies in the relationship
of structural framing to overall building geometry with emphasis on the statical stability of structural configurations and load
flow. 3 laboratories. Prerequisite: ARCE 223, ARCE
227, and third year standing in Architectural Engineering. Co-requisite: ARCE
302.
ARCE 372 Steel Structures Design Laboratory (3)
Steel framed project
incorporating structural system configuration and selection, structural
analysis for gravity and lateral loads, and construction drawings and
specifications. Integration of building services and
architectural design, constructability issues, and relationships between
construction methods and cost. 3 laboratories.
Prerequisite: ARCE 257, ARCE 302, ARCE 303, ARCE 352 and ARCE 371.
ARCE 400 Special Problems for Advanced
Undergraduates (1–2)
Individual
investigation, research, studies, or surveys of selected problems. Total credit limited to 4 units, with a maximum of 2
units per quarter. Prerequisite: Consent of department head.
ARCE 403 Advanced Steel Structures Laboratory
(3)
Advanced
topics in design of steel structures with emphasis on plate girders, plastic
design of continuous beams and frames and composite steel-concrete design. 3 laboratories.
Prerequisite: ARCE 372.
ARCE 412 Dynamics of Framed Structures (3)
Analysis of structures
subjected to dynamic loads with single- and multi-degrees of freedom.
Development of techniques for analysis of structures in response to seismic,
wind, and moving loads. Solution of problems by digital
computer. 3 lectures. Prerequisite: ARCE 225 or
ME 212, MATH 244, CSC 341 and ARCE 306.
ARCE 414 Precast
Concrete (3)
Precast and prestressed concrete
principles, materials and techniques of construction. Design of basic precast
elements and connections and prestressed concrete
fundamentals as applied to precast concrete.
Design potentials, aesthetics, cost and construction time as related to
buildings and other structures. 3 laboratories.
Prerequisite: ARCE 444.
ARCE 421 Soil Mechanics (3)
Principles of soil
mechanics, including rudiments of geology, soil classification, gravimetric and
volumetric relations, compaction, methods and testing,
shear strength of soil and strength theories. 2 lectures, 1
laboratory. Prerequisite: ARCE 212 or ARCE 222, GEOL 201.
ARCE 422 Foundation Design (3)
Soil-bearing
capacity and settlement characteristics of soils. Sizing and design of spread footings. Design and analysis of earth-retaining structures. 3 lectures. Prerequisite: ARCE 421.
ARCE 423 Advanced Foundation Design (3)
Design and analysis of
beams on elastic foundations, mat foundations, and combined footings. Pile
foundations and sheet pile retaining structures. Deep
foundation systems; piles and drilled piers. 3
lectures. Prerequisite: ARCE 422.
ARCE 444 Reinforced Concrete Laboratory (3)
Theory and design of basic
reinforced concrete elements: columns, beams, tee beams and one way slabs. 3 laboratories. Prerequisite: ARCE 371 and ARCE 302.
ARCE 445 Prestressed
Concrete Design Laboratory (3)
Design
and analysis of prestressed concrete structures. 3 laboratories.
Prerequisite: ARCE 444.
ARCE 446 Advanced Structural Systems Laboratory
(3)
Concepts and issues
involved in the design of complex structures including tall buildings, shells,
arches and tension structures. 3 laboratories.
Prerequisite: ARCE 226 or ARCE 371.
ARCE 447 Advanced Reinforced Concrete
Laboratory (3)
Advanced
topics in the design of reinforced concrete structures with emphasis on
isolated and combined foundations, retaining walls, seismic-resistant ductile
frames and yield line theory. 3 laboratories. Prerequisite: ARCE 444.
ARCE 448 Seismic Rehabilitation Laboratory (3)
Overview
of the general rehabilitation process and philosophy. Evaluation and analysis of existing
structures to determine expected performance due to seismic loads. Development of basic rehabilitation strategies for buildings.
3 laboratories. Prerequisite: ARCE 303, ARCE 304, ARCE
305, ARCE 412, ARCE 444.
ARCE 451 Timber and Masonry Structures Design
Laboratory (3)
Timber and masonry framed
project incorporating structural system configuration and selection, structural
analysis for gravity and lateral loads, and construction drawings and
specifications. Integration of building services and
architectural design, constructability issues, and relationships between
construction methods and cost. 3 laboratories.
Prerequisite: ARCE 257, ARCE 304, ARCE 305, and ARCE 371.
ARCE 452 Concrete Structures Design Laboratory
(3)
Cast in place concrete
framed project incorporating structural system configuration and selection,
structural analysis for gravity and lateral loads, and construction drawings
and specifications. Integration of building services and
architectural design, constructability issues, and relationships between
construction methods and cost. 3 laboratories.
Prerequisite: ARCE 257, ARCE 444, and ARCE 372 or ARCE 451.
ARCE 453 Senior Project Laboratory (3)
Projects by individuals or
teams under faculty supervision that go beyond topics covered in the ARCE
curriculum. Projects may include analysis, design, experimental testing,
research, or construction. Interdisciplinary projects encouraged. 3 laboratories. Prerequisite: ARCE 371, ARCE 451 or ARCE
452, ARCE 483.
ARCE 460 Collaborative Design Laboratory (1)
Investigation of the
collaborative nature of the design process as it relates to the structural
engineer and architect. Development of skills necessary to
create a successful design tem through the development of specific projects.
Total credit limited to 2 units. 1 laboratory.
Prerequisite: ARCE 371 and ARCE 372 or ARCE 451 or ARCE 452.
ARCE 470 Selected Advanced Topics (1–4)
Directed
group study of selected topics for advanced students. Open to undergraduate and graduate students. Class Schedule will list topic selected.
Total credit limited to 8 units. 1–4 lectures. Prerequisite: Consent of
instructor.
ARCE 471 Selected Advanced Laboratory (1–4)
Directed
group laboratory study of selected topics for advanced students. Open to undergraduate and graduate students. Class Schedule will list topic selected.
Total credit limited to 8 units. 1–4 laboratories.
Prerequisite: Consent of instructor.
ARCE 480 Senior Seminar (1)
Discussion
of selected topics that are of current interest to the structural engineering
profession. 1
seminar. Prerequisite: Senior standing.
ARCE 481 Structural Experimental Laboratory (1)
Reinstated; valid through 2005-07 Catalog
Application
of techniques of physical modeling to obtain solutions to structural design
problems. 1
laboratory. Prerequisite: ARCE 444.
ARCE 483 Seismic Analysis and Design (4)
Introduction to dynamic
response analysis of building structures with emphasis on earthquake ground
motion. Earthquake resistant design of buildings in
accordance with building codes. Application of
computer programs and physical models for seismic design. Laboratory
studies utilizing physical models for studying the behavior of building
structures subjected to simulated ground motions. 3 lectures,
1 activity. Prerequisite: ARCE 372, ARCE 412, CSC 342.
ARCE 485 Cooperative Education Experience (6)
(CR/NC)
Part-time work experience
in business, industry, government, and other areas of student career interest.
Positions are paid and usually require relocation and registration in course
for two consecutive quarters. Formal report and evaluation by work supervisor
required. Total credit limited to 16 units. Credit/No Credit grading only. Credits to not count toward graduation in the ARCE Degree Program.
Prerequisite: Sophomore standing and consent of department head.
ARCE 490 History of Structures (3)
Tracing
developments in structural materials, structural understanding and complete
structures from ancient times through the industrial revolution and the present
day. 3 lectures.
Prerequisite: Junior standing.
ARCE 495 Cooperative Education Experience (12)
(CR/NC)
Full-time work experience
in business, industry, government, and other areas of student career interest.
Positions are paid and usually require relocation and registration in course
for two consecutive quarters. Formal report and evaluation by work supervisor
required. Total credit limited to 16 units. Credit/No Credit grading only. Credits to not count toward graduation in the ARCE Degree Program.
Prerequisite: Sophomore standing and consent of instructor.
ARCE 504 Finite Element Method for Building
Structures (3)
Basic
concepts of equilibrium and compatibility. Stiffness and flexibility properties of various
types of finite elements. Development and application
of displacement and force methods. Elastic stability and dynamic
response of buildings to earthquake, wind, and moving loads. Use
of finite-element computer programs. 3 lectures.
Prerequisite: MATH 244, ARCE 306.
ARCE 521 Architectural Structures (3)
Static
and dynamic loads, structural equilibrium and stability, structural
configurations and systems, response to dynamic loads, behavior of structures. 2 seminars, 1 activity.
Prerequisite: Graduate standing in Architecture.
ARCE 522 Structural Systems (3)
Exploration
of the relationship between structural systems and architectural form. Understanding of structural stability and structural
order is developed through construction of a series of small scale models.
Historical perspectives are presented along with the effects of available
materials and technology on structural possibilities. 3
seminars. Prerequisite: Graduate standing in Architecture.
ARCE 523 Seismic Design for Architects (3)
Introduction
to the earthquake resistant design of buildings. Observed behavior of buildings
during earthquakes. Recent developments of seismic
design procedures, provisions, and building codes. Influence of
architectural form on seismic response. 3 lectures.
Prerequisite: Graduate standing in Architecture.