Note: Expense to students in courses with variable fees depends upon
the specific projects selected by the students. Students should consult
with course instructors.
70. Basic Metalworking (3)
Introduction to and exploration in various areas including sheet metal,
bench metal, art metal, wrought iron, foundry, and forging. (6 lab hours)
(Course. fee, $6.50)
71. Metallurgical Processes (3)
Fundamentals of metallurgy; properties and characteristics of metals; survey
of metal welding processes, equipment, and procedures; theory-discussion
and laboratory experience in oxygen-fuel welding, cutting, brazing, and
shielded metallic arc welding. (6 lab hours) (Course fee variable)
74. Basic Machine Tool Metalworking (3)
Basic methods of machining metals, including drilling, turning, boring,
milling, grinding, and shaping; hand tools, precision measuring instruments,
and layout; speeds and feeds; steel and its heat treatment. (Course fee,
$7.50) (6 lab hours)
80. Basic Woodworking (3)
Wood properties, materials, finishing; hand, portable electric, and machine
tool processing; design, production planning; safety, adhesives, and cutting
principles; machine design and use. (6 lab hours) (Course fee variable;
not less than $10)
92. Safety for Industrial Education (2)
Principles of industrial education safety as applied to industrial, occupational
and school settings; principles of safety, safety legislation, first aid;
machine, electrical, eye, noise, and fire prevention safety.
133. Industrial Crafts (3; max total 6)
Creative and recreational experiences in craft media including plastics,
leather, wood, metal, enamels, historical, cultural, technological information.
(Course fee, $4.50) (6 lab hours)
162. Graphic Arts Crafts (3)
Various processes and media used in graphic arts; creative and recreational
aspects for the student; silk screen, linoleum block, intaglio, papermaking,
thermographs, marbling, bookbinding, student projects. (6 lab hours; field
trips) (Course fee, $6)
178. Jewelry and Metalsmithing (3; max total 6)
Design fabrication techniques, and properties o1 materials as related 1c
jewelry, gemology, and metalsmithing. Historical, contemporary and creative
emphasis. Designing and constructing articles of jewelry and hollow ware
by hand and machine processes (Course lee, $10) (6 lab hours) (Former Ind
A 178)
190. Independent Study (1-3; max see reference)
See Academic Placement -- Independent Study. (Course fee variable)
191T. Technical Topics in Industrial Education (1-3; max total 6)
Prerequisite: permission of instructor. Investigation and analysis of selected
subjects in industrial education. (2-6 lab hours)
53. Electronic Devices and Circuits (3)
Prerequisite: I T 52. Characteristics and applications of electronic devices
in analog and digital circuits including power supplies, amplifiers, oscillators,
and switching circuits; introduction to linear integrated circuits. (1 lecture,
4 lab hours) (Course fee variable, not less than $4)
82. Wood Machining (3)
Prerequisite: I T 80. Development proficiency in the operation and maintenance
of modern woodworking machinery and spray finishing equipment; safety education,
cutting principles and techniques, machine design and capabilities. (6 lab
hours) (Course fee variable; not less than $10)
102. Industrial Data Processing Concepts (3)
Computer fundamentals; flowcharting and programming techniques; industrial
and technical programming systems and support components; database organization
and systems management; and industrial and technical management. (Field
trips)
104. Materials of Product Design (3)
Prerequisite: I T 41, 74, or equivalent. Elements, principles, and methods
of product design. Structure, properties, and manufacturing processes of
materials as related to models, prototypes, and production planning. Exploration
of the design process from concept to manufacturing, including packaging.
(6 lab hours) (Course fee variable; not less than $4.50)
106. Energy Conversion and Utilization (3)
Fundamental sources of energy, including the following energy conversion
systems: direct mechani cal, external combustion, internal combustion, solar
power, wind power, electrical and atomic sys tems. Experiments and demonstrations.
(2 lecture, 2 lab hours; field trips)
107. Facilities Planning (3)
Facility planning techniques as applied to facility location, zoning, building
codes, line balancing, shipping-receiving, offices, material handling, storage,
project scheduling, and computerized layout.
110. Fluid Power (3)
Prerequisite: I T 52. Selective study of fluid power principles and applications;
hydraulics, pneumatics, and vacuum; includes pumps, controls, transmission
systems, actuators, and fluidics. In-depth study of air conditioning-heating
theory and applications. (6 lab hours; field trips) (Course fee variable;
not less than $5)
112. Industrial Process Control and Instrumentation (3)
Prerequisite: I T 52. Industrial process control system principles and components;
computers, controllers, transducers, and actuators; mechanical and electrical
instrumentation. (6 lab hours)
114. Industrial Materials and Processes (3)
Chemical ceramics and physical properties of metals, plastics, wood, ceramic,
fuels, lubricants, and other industrial materials. Structural properties,
wear, corrosion, destructive and nondestructive testing: fabrication applications
and potentials, cutting, fusion, casting, forming, and other industrial
processes. (6 lab hours)
115. Interactive Graphics for Industry (3)
Prerequisite: I Ed 41 or 42, I T 102. Computer graphics applications;
special emphasis in manufacturing, construction, and interior design applications.
Exposure to computer-aided design and presentation graphics packages.
117. Quality Assurance (3)
Prerequisites: I T 102; Mgt 104 and 106 or Mgt 110. Quality assurance principles
and practices in industry: quality assurance systems, acceptance sampling,
testing, source surveillance; probability and statistical concepts, process
control techniques and measurement procedures as applied to quality.
118. Production Operations (3)
Prerequisites: I T 102, 104; Mgt 104 and 106 or Mgt 110. A survey of production
manufacturing operations: quality assurance, work sampling, testing, time
and motion study; routing, scheduling, and inventory control; flow processes,
material handling, and automation. (Field trips)
119. Computer-Integrated Manufacturing Concepts (3)
Prerequisites: a computer programming language; I T 118 or equivalent. Strategies
on how to implement Computer-Integrated Manufacturing (CIM) for a complete
manufacturing enterprise. Focuses on CIM systems, opportunities, concerns
and solutions; design, development, implementation, and operations; and
employees' educational programs. Team efforts and management are emphasized.
120. Automotive Engine Systems (3)
Prerequisites: I T 12, 53 or concurrently. Advanced study of vehicle engines
and support systems. Includes engine theory, fuel and electrical systems,
turbochargers, LPG, diesel, computerized emission and engine controls, and
dynamometer testing analysis. (6 lab hours; field trips)
121. Automotive Engine Machining (3)
Prerequisites: I T 12, 74. Advanced study of automotive engine machining
including precision measurements, principles of engine operation, machining
of engine components, crack detection, assembly procedures, lubricating
and cooling systems. (6 lab hours; field trips) (Course fee, $6)
122. Automotive Chassis Analysis (3)
Prerequisite: I T 12. Advanced study of vehicle chassis components including
power transmission, brake systems, wheel suspension, air conditioning, body
repair and refinishing, computer controls and diagnostics. (6 lab hours;
field trips)
124. Automotive Engine Diagnosis and Repair Procedures (3)
Prerequisite: I Ed 12. Laboratory work with emphasis on engine trouble shooting,
use of dynamometer and diagnostic equipment together with mechanical repair
techniques. (Course tee, $5) (Technical reports) (6 lab hours)
125. Multifuel Engine Power Analysis (3)
Prerequisite: I T 12. Laboratory and computerized dynamometer study in the
testing of new fuels or combinations of fuels, alternative engine design,
emissions anal ysis and dissemination of research data. (2 lecture, 3 lab
hours; field trips)
129. Automotive Chassis Diagnosis and Repair Procedures (3)
Prerequisites: I T 12. Laboratory work with emphasis on chassis diagnosis
and mechanical repair procedures. Technical reports. (6 lab hours)
131. Elements of Digital Computers (3)
Number systems, Boolean logic, and fundamentals of digital devices; basic
applications of logic devices in computers and control systems. (Field trips)
131L. Elements of Digital Computers Laboratory (1)
Prerequisite: I T 131 or concurrent enrollment. Demonstrations and experiments
with digital devices and circuits. (3 lab hours)
132. Microprocessor Applications (3)
Prerequisite: I T 131. Microprocessor characteristics and programming; application
and interface to digital and analog control and communication circuits;
introduction to microcomputer hardware. (2 lecture, 3 lab hours)
134. Programmable Automation (3)
Prerequisite: I T 177 or a high-level programming language. Study, analysis,
and evaluation of robotics systems. APT programming language for numerical
control and application languages for numerical control and application
languages for robot, programmable logic controllers, process controllers,
and microcomputer. Application of these systems in flexible manufacturing
cells. (2 lecture, 2 lab hours)
135. Computer-Aided Process Planning (3)
Prerequisites: I T 115, 177. Applications of computers to process planning,
group technology; tool and fixture design; and route sheet preparation.
141. Machine Design Graphics (3)
Prerequisite: I T 41. Advanced technical drawing and design. Use of dimensioning/
tolerancing, fabrication and materials standards, handbooks and industrial
catalogs. Application of various machining and forming operations, including
computer-aided design, in the investigation and completion of design problems.
(6 lab hours; field trips).
143. Manufacturing Illustration (3)
Prerequisite: I Ed 41. Practical application of the fundamentals of developing
perspectives, isometric drawings, isometric projections, dimetric drawings,
trimetric drawings, and the rotation of views in the preparation of detailed
pictorial assembly drawings of machines and machine parts from a set at
working drawings. (6 lab hours)
144. Tool Design Graphics (3)
Prerequisites: I T 41, 44, 115. Application of graphics to industrial work
holding devices; their application, drawing, and design. Construction of
working drawings aided by standards, company catalogs, and handbooks. Final
designs subjected to student presentation and evaluation. (6 lab hours;
field trips)
147. Computer-Aided Design (3)
Prerequisite: I T 115. CAD systems utilized in manufacturing industries.
Using CAD systems for generating 3D geometric data base and solid modeling.
System justification, benchmarking, personnel and facilities planning.
149. CAD Software Maintenance and Development (3)
Prerequisite; FORTRAN Programming Language, I T 115, 147. CAD database
philosophies, CAD applications software maintenance; software programming
tools to interface with cornputeraided manulacturing system.
153. Fundamentals of Electronic Communication Systems (3)
Prerequisite: I T 53. Electronic systems and applications including basic
transmitters, amplitude and frequency modulation transmitters and receivers;
transistor applications; antennas; television. (6 lab hours; field trips)
154. Fundamentals of Electrical Power Generation, Transmission (3)
Prerequisite: I Ed 52; I T 106 recommended. Equipment and systems for
electrical power generation, transmission and distribution. (6 lab hours;
field trips)
156. Fundamentals of Electric Motors (3)
Prerequisite: I Ed 52; I T 154 recommended. Application, operation and
control of alternating and direct current motors. (Course fee variable;
not less than $4) (6 lab hours; field trips)
157. Fundamentals of Telecommunications (3)
Prerequisite: I T 153. Introduction to telecommunications. Electromagnetic
wave. theory, propagation, and spectrum. Transmission, switching, and imperfections.
Telecommunication systems. (6 lab hours; field trips)
158. Local Area Network Fundamentals (3)
Data communication problems, concepts, protocols, specifications; Local
Area Network (LAN), Manufacturing Automation Protocols (MAP), Technical
and Office Protocol (TOP), computer integration; MAP specification, implementation,
and testing.
159. Industrial Electronics (3)
Prerequisites: I T 53, 112 and 153 or 119 and 132; I T 154, 156 recommended.
Industrial electronics systems analysis; applications of analog and digital
electronic circuits, devices and systems to industrial process and machine
control. (6 lab hours) (Course fee variable)
160. Graphic Communication Developments (3)
Prerequisite: I T 60. An investigation of the graphic reproduction processes
including laboratory experiences, practical application, and frequent industrial
trade tours. In-depth study of individually selected topics resulting in
written and oral research reports. (6 lab hours; field trips) (Maximum course
fee, $10)
161. Photo Offset Lithography (3)
Prerequisite: I T 60. Photo offset lithography techniques and processes:
design, layout, cold type composition, and paste-up, line, and half-tone
copy, imposition, multicolor printing. (6 lab hours; field trips) (Course
fee, $15) (Formerly Ind A 161)
163. Graphic Communications Management (2)
Manufacturing processes, procurement, pricing, classification, and use of
paper and ink. Estimating various kinds at printing produced by the major
processes. (Field trips)
164. Graphic Communications Organization (2)
Structure of the graphic communications industry, technological developments
and trends, plant and production analysis, organizational structures. (Field
trips)
170. Advanced Principles of Metalworking (3)
Prerequisite: I T 70. Study and experience in the technological, scientific,
and historical aspects of nonferrous metal casting, core-making; forging,
principles of metal spinning. (6 lab hours) (Course fee, $6.50)
171. Advanced Metallurgical Processes (3)
Prerequisite: I T 71. Lecture-discussion and laboratory experiences
in advanced shielded metallic arc welding, gas tungsten arc welding, gas
metal arc welding, plasma arc cutting, air arc cutting, and automated oxygen-fuel
cutting; weld specimen preparation, testing (destructive/nondestructive),
and welding metallurgy. (6 lab hours) (Course fee variable)
172. Fluid Metal Processes (2)
Prerequisite: I T 170. Theory and practice in processes of industrial casting,
casting design considerations, pattern making, core making, sand mold casting,
permanent mold casting, die casting, centrifugal casting, and related processes.
(Course lee, $6.50) (6 lab hours)
l73. Metal Fabrication Processes (3)
Sheet metal pattern drafting and layout applicable to parallel, radial,
and triangulation methods using light gauge metals; individual problems
in planning, using, and maintaining hand and machine tools. (6 lab hours)
(Course fee, $6.50)
174. Advanced Machine Tool Metalworking (3)
Prerequisite: I T 74. Advanced machining and tooling, special machine tools,
and precision measuring instruments; laboratory experiences in use of ferrous
and nonferrous metals, cast iron and semisteel castings; coolants related
to modern manufacturing process. (6 lab hours) (Course fee variable; not
less than $2.50)
175. Machine Tool Technical Problems (3)
Prerequisite: I T 174. Advanced technical work in meals, layout, fabrication,
heat treatment and machinability: specifications at: introduction to gearing
principles, tool and die work, jigs, and fixtures. Experimental projects
and technical reports. (Course fee variable: not less than $3.75) (6 lab
hours)
177. Computer Numerical Control (2)
Prerequisite: I T 102. Control principles, applications, and programming;
APT programming language, post processing; equipment principles and evaluation
and justification.
177L. Computer Numerical Control Laboratory (1)
Prerequisite: I T 177 or concurrently. Principles, techniques, and applications
of computer numerically controlled machine tools; manual and computer assisted
programming; laboratory experience with computer numerically controlled
machines. (3 lab hours)
182. Woodworking Specialties (3; max total 6)
Prerequisite: I T 82. Specialized activities related to the field of woodworking:
upholstering, inlaying and veneering, advanced wood turning, plastic laminate
fabrication, bending and laminating, molded plastic parts, paneling, caning,
glass and mirrors, picture framing, furniture restoration, wood finishing.
(6 lab hours) (Course fee variable; not less than $10)
184. Wood Technology (3)
Prerequisite: I T 74. Wood structure, identification, physical testing;
study of wood products and processing industries. (6 lab hours; field trips)
(Course fee variable; not less than $2)
185. Advanced Wood Machining (3)
Prerequisite: I T 82. Design, construction, and finishing of furniture,
cabinet work, millwork. Production methods, analysis of cutting processes.
(6 lab hours) (Course fee variable; not less than $10)
190. Independent Study (1-3; max see reference)
See Academic Placement -- Independent Study. (Course fee variable)
191T. Technical Topics in Industrial Technology (1-3; max total 6)
Prerequisite: permission of instructor. Investigation and analysis of selected
subjects in industrial technology. (2-6 lab hours)
192. Manufacturing Technologist Certification Review (1)
Prerequisite: junior standing. Preparation for Certification Examinations
by the Society of Manufac turing Engineers and the National Association
of Industrial Technology. Basic mathematics, physics statics, and strength
of materials. Materials science and metallurgy. Engineering drawings and
blueprint reading; metrics and the SI system. (Formerly I T 191T section)
194. Cooperative Education in Industrial Technology (1-4; max total 12)
Prerequisites: courses appropriate to the work experience; permission of
department cooperative education coordinator; junior standing. Integration
of work experience with academic program, individually planned through program
adviser.
195. Modern Industrial Facilities (1-2; max total 4)
Observation, analysis, and critique of production methods and facilities
of selected industries of interest to industrial technology majors within
options, emphases, or unit areas of study. (Course fee variable)
198. Technical Report Writing (3)
Prerequisites: senior standing in industrial technology. Technical writing
for the industrial technologist; preliminary organization and development
of the senior problem.
199. Senior Problem in Industrial Technology (2)
Prerequisites: I T 198W and permission of instructor. Approved problem or
research project, with seminar, in the area of the student's option and
emphasis.
Construction Management (Const)
5. Construction Materials (3)
Introduction to basic construction materials: concrete, masonry, metals,
woods, thermal materials, finishes, equipment, and specialties. (2 lecture,
2 lab hours; field trips)
10. Estimating and Bidding (3)
Prerequisites: Const 5, 42. Basic methods used to evaluate, fix cost, calculate
worth, make accurate quantity take-offs and labor time estimates; preparing
bids for prospective buyers. (6 lab hours) (Computer lab fee, $15)
31. Architectural Graphics (3)
Introduction to basic techniques and media used in architectural graphic
communication including: perspective techniques, sciagraphy, models, and
photography; emphasis on various ways of making drawn representations of
architectural design proposals. (6 lab hours)
32. Architectural Design (3)
Introduction to architectural design theory; analysis of architectural design
problems, assessment of human needs, establishment of architectural design
criteria and development of architectural design concept. (6 lab hours)
42. Architectural Drawing (3)
Architectural drafting techniques and standards; progress from fundamentals
to completion of light construction working drawings, floor plans, elevations,
details, application of building codes. (6 lab hours) (Course fee, $5)
44. Descriptive Geometry (3)
Prerequisite: permission of instructor. Descriptive geometry as related
to design processes. A nonrnathernatical approach to geometric rnagnitudes
and the relationship between points, Iines and planes in space. Application
o1 these principles in solving a variety of technological design problems.
(8 lab hours)
50. Basic Building Systems (3)
Exploration of theoretic principles relating to the various building systems.
(2 lecture, 2 lab hours; field trips)
105. Construction Structures (3)
Prerequisites: Const 5, 50; Phys 2A; Math 71 and 72 or 75. Properties, strength,
and functional applications of basic construction materials: woods, metals,
and concrete. Recent developments in new materials and applications. (2
lecture, 2 lab hours; field trips)
107. Advanced Construction Structures (3)
Prerequisite: Const 105. Analysis of construction materials in its application
to different structural systems. (2 lecture, 2 lab hours)
114. Construction Management (3)
Prerequisite: senior standing in construction. The construction manager's
relation to internal organization, owner, architect, engineer, public, press,
legal aid, unions, trades, equipment, utilities, insurance, finances, government,
and others.
116. Scheduling and Control (3)
Prerequisites: I T 102 recommended; senior standing. Critical path method;
planning, scheduling, and control of construction projects including logic,
time assignment and computation, analysis, replanning, diagramming practices,
monitoring and updating, computer utilization; role of management. (6 lab
hours)
120. Construction Contracts and Specifications (3)
Prerequisite: Const 42. Principles and methods for developing and applying
construction contracts and specifications.
122. Construction Laws (3)
Laws, acts, orders, bulletins, rules, and regulations affecting the construction
industry.
124. Construction Labor Law (3)
Prerequisite: Const 122. Study of federal and state labor-oriented regulations
as applied to construction industry practices. Interaction between technical
and legal aspects of collective bargaining, pre-hire agreements, hiring
hall referrals, open shop construction, work force management, labor standards,
employment discrimination, strikes, and picketing.
131. Advanced Architectural Graphics (3)
Prerequisite: Const 31. Architectural graphic techniques as tools of three
dimensional analysis and representation in the design process. (6 lab hours)
132. Advanced Architectural Design (3)
Prerequisite: Const 32. Development of understanding of the forces affecting
the man-made environment through function identification, systems analysis,
and development of architectural design solutions to problems at an intermediate
level of complexity. (6 lab hours)
134. Architectural Design Problems (3)
Prerequisites: senior standing or permission of instructor; Const 132. Conceptual
planning and design of a large scale architectural project responding to
the social and cultural context of the environment. Employing team research
and analysis leading to the design and presentation on individual solutions
with graphic and three-dimensional techniques. (6 lab hours)
142. Construction Detailing (3)
Prerequisite: Const 42. Application of computers to planning and details
for wood, concrete, masonry, and steel structures. (6 lab hours; field trips)
150. Heavy Building Construction (3)
Prerequisites: Const 105, 116, 120; senior standing . Problems and methods
of solution in the construction of heavy buildings; site, excavations, foundations,
framework, heavy timber, reinforced concrete, structural steel, masonry
construction, and related elements. (2 lecture, 2 lab hours; field trips)
151. Heavy Construction (3)
Prerequisites: Const 150. Problems and methods of solutions in heavy construction
from tunneling highways to industrial structures; administrative procedures,
quantity surveying, estimating, scheduling and implementation. (2 lecture,
2 lab hours; field trips)
160. Solar Energy in Building (3)
The practical application o1 solar energy for hot water, space heating/cooling,
swimming pool heating, housing design, solar communities and electrical
production. Coverage will include performance calculations, cost analysis,
collector sizing, available solar energy and solar collector materials and
components.
162. Mechanical Systems in Construction (3)
Heating, ventilating, and air conditioning systems in buildings and plants;
California Energy Code, heat loss and gain, system sizing and life cycle
cost analysis. Lectures, demonstrations, guest speak ers from industry.
(Field trips)
164. Building Electrical Systems (3)
Prerequisite: I T 52. Electrical systems for power, light, heat, signals,
and communications in commercial, industrial, and residential buildings.
(2 lecture, 2 lab hours; field trips) (Course fee, $7)
190. Independent Study (1-3; max see reference)
See Academic Placement -- Independent Study. (Course fee variable)
191T. Technical Topics in Construction (1-3; max total 6)
Prerequisite: permission of instructor. Investigation and analysis of selected
subjects in construction. (2-6 lab hours)
193. Supervised Work Experience (3-6; max total 6)
Open only to industrial arts and industrial technology majors. Prerequisites:
junior standing and permission of instructor. Supervised work experience
in construction related industries. Periodic consultations with instructor.
Graphic and Interior Design (GID)
70. Interior Design Foundations (3)
Prerequisite: recommend GID 71 concurrently. Social, psychological, economic,
and aesthetic aspects of interior design. Integration of design principles;
space planning, furniture selection, creative expression, and consumer information
pertaining to living space.
71. Interior Design Studio (3)
Prerequisite: GID 70 (or concurrently). Introductory residential experience
in interior design processes. Studio work; floor plans, elevations, electrical
plans, spatial arrangements, graphics and design presentations, two dimensional
design techniques, introduction to ink. (Course lee, $5) (4 lab hours) (Former
IDH 71)
72. Interior Design Presentation (2; max total 4)
Prerequisite: GID 71; Const 42. Introductory experiences in interior design
presentation and technique, architectural graphics, space analysis and three-dimensional
model design problems, and use of color media. (4 lab hours) (Course fee,
$5) (Formerly IDH 72)
107. Applied Color and Design (3)
Introduction to the application of color and design; properties of color,
simple graphic methods, and three dimensional design. Studio work and critiques.
(6 lab hours) (Course fee, $5) (Formerly IDH 107)
117. Space Planning (2)
Prerequisite; GID 71, Const 42. Introduction to interior space planning
for typical residential and commercial projects. Design considerations;
human dimensions, anthropometrics. Elderly, physically disabled and basic
design reference standards. (4 lab hours) (Former IDH 172T)
141. Technical Illustration (3)
Principles and practice of drawing and laws of light and shade; subject
matter ranges from the simplest basic shapes to more complex real forms
including renderings in pencil and opaque color of industrial products,
interior, architectural, and automotive projects. (6 lab hours) (Former
I Ed 141)
142. Advertising Design (3)
Prerequisite: I T 60. Advertising and illustration problems from rough sketches
to finished artwork. Emphasis on good design and professional techniques.
Preparation of artwork for reproduction including overlays, art type, photo
mechanical procedures, and advertising production methods. (6 lab hours)
(Course fee, $5) (Formerly I Ed 142)
143. Rendering (3)
Prerequisite: GID 141. Exploration of a variety of illustration techniques
as they apply to interior design, commercial art, and advertising. Emphasis
on professional application and quality. Black and white and full color
techniques. (6 lab hours) (Course fee, $5) (Formerly I Ed 143)
144. Perspective Drawing (3)
Prerequisite: GID 141recommended. Theory of one-, two-, and three-point
perspective, followed by extensive application. Laws of perspective and
light and shade as applied to increasingly complex subject matter. (6 lab
hours) (Formerly I Ed 144)
146. Advanced Rendering (3; max total 6)
Prerequisite: GID 143. Advanced rendering for industrial design, architecture,
interior design, com mercial art, and illustration. Includes limited and
full color problems with emphasis on professional presentation. Individual
exploration encouraged. (6 lab hours) (Formerly I Ed 146)
147. Advertising Illustration (3)
Prerequisite: GID 141. Illustration as it applies to advertising situations.
Composition and techniques designed for quick reading and ease of execution.
Black and white and limited color. (6 lab hours) (Course fee, $5) (Formerly
I Ed 147)
148. Advanced Advertising Design (3; max total 6)
Prerequisite: GID 142. Advanced advertising/graphic design from conceptual
to finished art. In cludes problems and more advanced approaches relating
to various media such as logo design, billboards, TV, etc. Emphasis on production
procedures, professionalism, and building a strong portfolio, including
critiques. (6 lab hours) (Formerly I Ed 148)
165. Typography (3)
Prerequisite: I T 60. Typographic principles, elements, and techniques:
type classification and selection, copyfitting, design and layout. Modern
composition; computerized phototypesetting systems. Paste-up techniques.
(6 lab hours; field trips) (Course fee, $4) (Formerly I T 165)
170. Commercial Interior Design (3)
Prerequisites: GID 70, 71, 72, 117; Const 42. Introduction to the application
of contemporary designs and office systems as related to the field of light
commercial interiors. (6 lab hours) (Formerly IDH 170)
172T. Topics in Graphic and Interior Design
(1-4; max total 12 if no topic repeated)
Prerequisites: GID 70, 72. Topics related to graphic and interior design.
Some topics may have labs. (Formerly IDH 172T)
173. Interior Design Tours (3)
A sampling of architecture and interior space. Tours include northern, central,
and southern Califor nia architecture. Residential and contract showrooms
visited. Expenses for required off-campus visits incurred by the student.
(6 lecture-lab hours) (Course fee, $150) (Formerly IDH 173)
174. Contemporary Architecture and Interiors (3)
Emergence of contemporary architecture and interiors, forces, architects
and designers responsible for 20th century designs. Emphasis on change in
form, style, materials, and client demand. (Formerly IDH 174)
175A. History of Architecture and Interiors:
Ancient World to Baroque Period (3)
Prerequisite: course in art history recommended. A stylistic survey of characteristics
common to each historical period of architectural and furniture design.
(Formerly IDH 175A)
175B. History of Architecture and Interiors: Baroque to Period through
19th Century (3)
Prerequisite: course in art history recommended. A stylistic survey of characteristics
common to each historical and modern period of architectural and furniture
design. (Formerly IDH 175B)
176. Interior Design Materials (3)
Prerequisites: GID 70; F M 20. Selection, specifications, and computations
for interior design mate rials available for the residential, commercial,
and institutional design. Lecture, small group research, product display,
and field trips. (2 lecture, 2 lab hours) (Course fee, $10) (Formerly IDH
176)
177. Professional Interior Design Practices (3)
Prerequisites: GID 70, 176; Acct 3. Basic principles, procedures, and office
systems necessary to professionally organize and carry through a creative
interior design project from the original client contact to final billing
and collecting. (1 lecture, 4 lab hours) (Course fee, $10) (Formerly IDH
177)
178A. Advanced Residential Interior Design (3)
Prerequisite: GID 144, 170, 175A-B, 176; I T 115. A series of advanced creative
design solutions for residential environments. Design for new construction,
remodeling, and restoration for a variety of lifestyles, budgets, and physical
conditions. Working drawings, presentation techniques, and specifications.
(6 lab hours) (Course fee, $5) (Former IDH 178A)
178B. Advanced Commercial Interior Design (3)
Prerequisite: GID 144, 170, 175A-B, 176; I T 115. A series of design solutions
for a diversity of commercial spaces: public buildings, heath care, food
service, professional offices and merchandising facilities. Space planning,
equipment lighting, systems, codes, layout, presentation, and specifications.
(6 lab hours) (Formerly IDH 178B)
179. Design Exhibits and Competitions (2-3; max total 5)
Prerequisite: GID 72, 170; Const 42; permission of instructor. Provides
a structure for students to participate in a design show or manufacturer
interior design competition. Course can be taken for 2 units (as an assistant)
or 3 units (as a student designer). (Former IDH 179)
180. Restoration and Preservation (3)
Prerequisites: GID 174, 175A-B, 176, and permission of instructor. Principles
and methods of restoration, case studies of the restoration and preservation
of historically significant structures in the United States. Working drawings,
details, and specifications. (2 lecture, 2 lab hours) (Formerly IDH 180)
181. Interior Design Practicum (1; max total 6)
Prerequisites: senior standing; GID 176, 178A or 178B; permission of instructor.
Supervised professional practice in interior design related business or
industry. (Formerly IDH 181)
182. Interior Lighting (3)
Prerequisites: GID 70. Introduction to lighting of residential and commercial
interiors. Laboratory testing and lighting calculations. (2 lecture, 2 lab
hours) (Formerly IDH 182)
190. Independent Study (1-3; max see reference)
See Academic Placement -- Independent Study. (Course fee variable) (Formerly
IDH 190)
(See Course Numbering System.)
The following graduate courses are open only to students who have been accepted
into a graduate program. Students who are not in graduate standing should
contact the department graduate coordinator prior to enrolling.
Industrial Education (I Ed)
223. History and Philosophy of Industrial Education and Technology
(3)
A study at the developmental history of the technological and educational
related fields of industry including philosophical and pragmatic foundations,
issues, movements, and trends.
224T. Professional Topics in Industrial Education
(2-3; max total 6 on master's degree with no area repeated)
Advanced study in professional industrial education; administration, supervision,
vocational guidance, economic, and sociological implications.
228. Evaluation in Industrial Education (3)
Techniques and philosophy of evaluation in industrial education; types of
test items, item analysis, and interpretation of test results; evaluation
of research, facilities, textbooks, and evaluative criteria.
270. Technical Problems
(2-3; max total 9 if no area repeated; max combined total with I T 290 is
12)
Technical work in selected areas; research under supervision of instructor.
280. Problems in Industrial Education and Technology (3)
Prerequisites: A S 153 and advancement to candidacy. Seminar in research
procedures in industrial education and technology; basic bibliography, research
form and methods.
281. Research Design in Industrial Education (3)
Research formats and applied experimentation techniques; critical path analysis
and program evaluation review techniques.
284T. Topics in Industrial Technology
(2-3; max total 9 toward master's degree if no area repeated)
Advanced study in technical areas; current industrial practices, developments
and trends related to design, materials, and processes.
286. Safety and Related Problems in Industrial Education and Technology
(3)
Safety principles in occupational, industrial, and school settings, safety
legislation, inspections, equipment, workman's compensation, first aid,
fire, noise, and general safety.
287. Planning and Organizing Industrial Education Curriculum (3)
Prerequisite: T Ed 161. Study of the planning, organizing, and control functions
utilized in the development and management of industrial education programs
and curriculum.
288. Seminar in Industrial Arts and Technology (2-3; max total 6 on
master's degree)
Advanced individual and group study o1 selected problems; organizational
relationships, effective communication o1 ideas, technological trends and
developments, economic and social considerations.
290. Independent Study
(1-3; max total 6 if no area repeated; max combined total with I T 270 is
12)
See Academic Placement -- Independent Study.
298. Project (2-4; max total 4)
Prerequisites: I T 280; prior advancement to candidacy. See Criteria for
Thesis and Project. Completion of an approved project appropriate to the
candidate's area of specialization involving the devel opment of a physical
prototype or other similar professional problem-solving activity with extensive
written documentation. Abstract required.
299. Thesis (2-4; max total 4)
Prerequisites: I T 280; prior advancement to candidacy. See Criteria for
Thesis and Project. Preparation, completion, and submission of an acceptable
thesis for the master's degree.
(See Course Numbering System.)
Industrial Education (I Ed)
341. Problems in Industrial Arts
(2-3; max total 6 if no area repeated)
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