Note: Expense to students in courses with variable fees depends upon
the specific projects selected by the students. Students should consult
with course instructors.
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)
92. Industrial Safety Management (3)
Principles of safety management in an industrial environment; safety legislation
and programs; management/supervisory and employee responsibilities and attitudes;
physical hazards associated with chemicals, equipment, fire, compressed
gases; other topics include eye, stress, drugs, lifting, office, and noise
safety. (Formerly I Ed 92)
102. Industrial Computer Concepts and Applications (3)
Introduction to industrial computer systems. Comprehensive view of the components
of a modern industrial information processing system and the parts each
component plays in the processing of data. (Computer lab fee, $15)
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.
General Education CAPSTONE Cluster course. (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 (3)
Chemical and physical properties of metals, polymers, ceramics, composites.
Atomic structure and phases of matter emphasizing crystalline and amorphous
solids. Me chanical properties, strength and testing of materials including
impact, hardness, and tensile. Metallographic, microscopic inspection of
electronic, and metallic specimens. (6 lab hours)
115. CAD Principles and Methods (3)
Prerequisites: I T 41 or Const 42; I T 102. Computer-aided design applications.
Special emphasis in manufacturing, construction, and interior design applica
tions. Exposure to CAD software packages. (Computer lab fee, $15)
116. Industrial Programming (3)
Prerequisite: I T 102. Contemporary computer language used in automation,
equipment communications, and manufacturing industry; basic concepts on
structural programming, programming mechanics, and applications. (1 lecture,
4 lab hours) (Formerly I T 191T section)
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)
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)
127. Vehicle Design and Development (3)
Design and mechanical development of vehicles for intercollegiate competition
events. Students will select one or more vehicle research projects: innovative
future fuels, supermileage, mini baja, for mula, aero design, walking robot.
(6 lab hours) (Formerly I T 191T section)
129. Automotive Diagnostic Procedures (3)
Prerequisites: I T 12, 53 or concurrently. Laboratory study and analysis
of mechanical, electrical, and computer control problems. Technical reports.
(6 lab hours) (Course fee, $5)
131. Digital Circuits and Systems (3)
Prerequisites: I T 52. Number systems, Boolean logic, and fundamentals of
digital devices; basic applications of logic devices in computers and control
systems. (2 lecture, 3 lab hours; field trips) (Course fee, $5)
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)
133. Programmable Logic Controllers (3)
Prerequisites: I T 131; I T 112 recommended. Programmable logic controller
principles and equipment; programming languages, procedures, and documentation;
equipment and software selection and application. (2 lecture, 2 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.
(Computer lab fee, $15)
140. Principles of Applied Technology (3)
Prerequisite: Math 72 or 75; Phys 2A, 2B. Problem solving and analysis using
physical science principles of mechanics, thermodynamics, and hydraulics.
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). . .
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. Advanced CAD Applications (3)
Prerequisites: I T 115, 140, 144. CAD as a tool to facilitate design activities.
An overview of design processes and methods. Solid modeling techniques are
introduced. A team approach in system design is emphasized. (2 lecture,
3 lab hours) (Lab fee, $15)
148. CIM Systems Analysis and Development (3)
Prerequisite: I T 115. Computer-Integrated Manufacturing (CIM) systems utilized
in manufacturing industries, systems development cycle, systems analysis,
justification, benchmarking, personnel, and facilities planning. (Lab fee,
$15)
149. CIM Systems Management (3)
Prerequisite: I T 148. Computer-Integrated Manufacturing (CIM) system database
philosophies. System administration, facility organization and administration,
personnel development and organization, training, system maintenance, and
evaluation.
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. Electric Power Systems (3)
Prerequisite: I T 52. Electrical power generation and distribution systems.
Power and control circuits in commercial and industrial facilities. Building
codes and analysis of electrical demands are emphasized. (6 lab hours; field
trips)
156. Electric Motors and Controls (3)
Prerequisite: I T 52. Study and analysis of the characteristics and industrial
applications of electric motors. Major emphasis is placed on programmable,
solid state, and electromechanical motor controllers. 6 lab hours; field
trips) (Course fee variable; not less than $4)
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)
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) (Formerly I Ed 162)
170. Advanced Principles of Metalworking (3; max total 6)
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)
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)
177. Computer Numerical Control (3)
Prerequisite: I T 74, 102. Introduction to computer numerically controlled
hardware including milling and turning centers and flexible manufacturing
systems. Programming in languages common to computer numerically controlled
machine tools. Computer-controlled machining of industrial materials including
aluminum, brass, steel, plastic, expanded foam, and wax. (6 lab hours) (Minimum
course fee, $5)
182. Wood 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 Production Technology (3)
Prerequisite: I T 74. Wood microstructure, seasoning, and physical properties.
Production process ing, including product design, tooling, capacity planning,
material handling, scheduling and flow chart. (6 lab hours; field trips)
(Course fee variable; not less than $2)
185. Advanced Wood Machining (3; max total 6)
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. Approved for SP grading. (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. CR/NC grading only.
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. CR/NC grading only.
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, em phases, or unit areas of study. (Course fee variable)
198W. Technical Writing (3)
Prerequisites: Engl 1; completion of 56 units. Preparation of technical
reports, research proposals, specifications, resumes, and corre spondence
using effective writing techniques, formats, and styles. Meets upper-division
writing skill requirement for graduation. (Formerly I T 198)
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. Approved for SP grading.
Graphic and Interior Design (GID)
7. Drafting for Interior Design (3)
Interior drafting techniques for complete working drawings in plan and elevation,
interior millwork, introduction to codes, standards, ink and lettering.
(6 lab hours)
37. Interior Graphics (3)
Introduction to basic black and white interior graphic communication techniques
including one- and two-point perspective sketch techniques, graphic charts,
material representation, plan and elevation graphics; emphasis on composition,
shade, shadow, lighting, and texture. (6 lab hours)
43. Visualization and Illustration (3)
Not open to students with credit in I Ed 141 or GID 141. Rapid visualization
as a means of quick visual communication for the illustrator or designer.
Illustration techniques include projects in pencil, pen, markers, shading,
and opaque water col or. (6 lab hours) (Course fee, $5)
63. Computer Imaging and Publishing (3)
Publication imaging using the computer. Typography: typeface selection,
spacing, positioning, readability, legibility; page layout for various style
publications. Illustrations: computer drawing, tints, clip art; integration
of illustrations and type. PageMaker and other programs on the Macintosh
computer. (6 lab hours) (Computer lab fee, $15) (Formerly GID 172T section)
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. Residential Interior Design (3)
Prerequisite: GID 70. Introductory residential experience in interior design.
Studio work, creative aesthetics, spatial arrangements, design process programming.
(6 lab hours) (Course fee, $5)
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)
110. Basic Building and Mechanical Systems (2)
Not open to students with credit in Const 50 or 162. Fundamentals of building
systems as related to interiors, including construction products and techniques,
acoustics, electrical, plumbing, heating, ventilating, and cooling. (Field
trips) (Formerly GID 172T section)
111. Design Presentation Techniques (3)
Prerequisites: GID 43, 70, 107 . Creative design presentation and technique,
architectural graphics, product presentation boards, three dimensional model
design problems, and use of color media. (4 lab hours) (Course fee, $5)
(Formerly GID 72)
112. Space Planning (3)
Prerequisites: 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. Design for special populations. (6 lab hours)
(Course fee, $5) (Formerly GID 117)
113. 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 GID 173)
114. 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 GID 175A)
115. History of Architecture and Interiors: Baroque to Modern (3)
Prerequisite: course in art history recommended. A stylistic survey of characteristics
common to each historical and modern period of architectural and fur niture
design. (Formerly GID 175B)
130. Interior Lighting (3)
Prerequisites: GID 70, 110. Introduction to lighting of residential and
commercial interiors. Laboratory testing and lighting calculations. (2 lecture,
2 lab hours) (Course fee, $10) (Formerly GID 182)
131. Interior Design Materials and Specifications (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 GID
176)
132T. Topics in Graphic and Interior Design
(1-4; max total 12 if no topic repeated)
Prerequisites: GID 70, 111. Topics related to graphic and interior design.
Some topics may have labs. (Formerly GID 172T)
133. Professional Interior Design Practices (3)
Prerequisites: GID 70, 131; 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 GID
177)
134. Restoration and Preservation (3)
Prerequisites: GID 114, 115, 131, 174, 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) (Course fee, $5) (Formerly
GID 180)
135. Commercial Interior Design (3)
Prerequisites: GID 7, 70, 71, 111, 112, and 144. Introduction to the application
of contemporary designs and office systems as related to the field of light
commercial interiors. (6 lab hours) (Course fee, $10) (Formerly GID 170)
137. Interior Architectural Models and Graphics (3)
Prerequisite: GID 37. Three dimensional interior architectural models and
graphic techniques integrating color and composition and its impact on design
communication; media to include illustration board, balsa wood, photography,
markers, color pencil, pastel, and water color. (6 lab hours)
138. Advanced Residential Interior Design (3)
Prerequisites: GID 37, 110, 114, 115, 131, 135, 144; 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, $10) (Formerly GID 178A;
GID 151)
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)
143. Rendering (3)
Prerequisite: GID 43. 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)
144. Perspective Drawing (3)
Prerequisite: GID 43 recommended. 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)
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)
147. Advertising Illustration (3)
Prerequisite: GID 43. 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)
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)
150. Design Exhibits and Competitions (3; max total 6)
Prerequisites: GID 135; permission of instructor. Provides a structure for
students to participate in creative design shows or manufacturer design
competitions and exhibits. CR/NC grading only. (6 lab hours) (Course fee,
$10) (Formerly GID 179)
152. Interior Design Practicum (1; max total 6)
Prerequisites: senior standing; GID 131, 138, or 155; permission of instructor.
Supervised professional practice in interior design related business or
industry. Participation in Senior Portfolio Review required. (Formerly GID
181)
155. Advanced Commercial Interior Design (3)
Prerequisites: GID 114, 115, 131, 135, 137, 144; I T 115; senior standing.
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 GID 178B)
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)
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.
190. Independent Study (1-3; max see reference)
See Academic Placement -- Independent Study. Approved for SP
grading.
(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 Technology (I T)
223. Technology and Society (3)
Study of the developmental history of technology and its impact on people
and their institutions. Topics focus on the consequences of rapid technological
change as it relates to education and train ing, energy demands, and environmental
concerns. (Formerly I Ed 223)
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.
Approved for SP grading. (Formerly I Ed 270)
280. Research Methodology (3)
Prerequisites: ERF 153 and advancement to candidacy. Seminar in research
procedures in industrial education and technology; basic bibliography, research
form and methods. (Formerly I Ed 280)
282. Advanced Communication Concepts and Visual Presentations (3)
Prerequisite: I T 115. Preparation and use of agendas, memoranda, business
letters, electronic mail, fax communications. Video development and slide
and transparency preparation and the incorpora tion of these media into
presentations. Interview techniques, resume evaluations, dictation skills,
professional relations with personnel, business etiquette. (Formerly I Ed
284T section)
283. Advanced Materials and Processes (3)
Prerequisite: I T 114. Chemical and physical properties of metals, polymers,
ceramics and composites. The atomic structure and phases of matter emphasizing
crystalline and amorphous solids. Materials technology of metallic, polymeric,
ceramic, and advanced composites are stressed. (For merly I Ed 284T section)
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. (Formerly I Ed 284T)
285. Advanced Manufacturing Systems (3)
Prerequisites: I T 74, 115. A comprehensive study of modern manufacturing
systems. Topics include plant layout, material control and transfer, operations
measurement, transfer lines, CNC and DNC, machine tool network, computer-integrated
manufacturing, flexible manufacturing systems, group technology, robotics,
and manual assembly systems. (Formerly I Ed 284T section)
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. Approved for SP grading. (Formerly
I Ed 290)
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. Approved for SP grading. (Former
I Ed 298)
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. Approved for SP grading. (Formerly I Ed
299)
(See Course Numbering System.)
Industrial Technology (I T)
341. Problems in Industrial Arts
(2-3; max total 6 if no area repeated)
Prerequisite: permission of instructor. Intensive analysis of a selected
area in industrial arts or industrial technology. Research paper, project,
or reports. (Formerly I Ed 341)
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