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Industrial Technology
Agricultural Sciences & Technology
2002-2003 California State University, Fresno General Catalog 131
ability and statistical concepts, process con-trol
techniques and measurement proce-dures
as applied to quality.
118. Production Operations (3)
Prerequisite: IT 102. A survey of produc-tion
manufacturing operations: quality as-surance,
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; IT 118 or equivalent. Strategies
on how to implement Computer-Integrated
Manufacturing (CIM) for a complete man-ufacturing
enterprise. Focuses on CIM sys-tems,
opportunities, concerns and solu-tions;
design, development, implementa-tion,
and operations; and employees’
educational programs. Team efforts and
management are emphasized. (2 lecture, 3
lab hours)
120. Vehicle Engine Systems (3)
Prerequisites: IT 12, 52 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: IT 12, 74. Advanced study
of automotive engine machining including
precision measurements, principles of en-gine
operation, machining of engine com-ponents,
crack detection, assembly proce-dures,
lubricating and cooling systems. (6
lab hours; field trips) (Course fee, $6)
122. Vehicle Chassis Analysis (3)
Prerequisite: IT 12. Advanced study of
vehicle chassis components including power
transmission, brake systems, wheel suspen-sion,
air conditioning, body repair and
refinishing, computer controls and diag-nostics.
(2 lecture, 2 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, formula,
aero design, walking robot. (6 lab hours)
107. Facilities Planning and Materials
Handling (3)
Facility planning techniques as applied to
facility location, zoning, building codes,
line balancing, shipping-receiving, offices,
material handling, storage, project sched-uling,
and computerized layout.
110. Fluid Power (3)
Prerequisite: IT 52. Selective study of fluid
power principles and applications; hydrau-lics,
pneumatics, and vacuum; includes
pumps, controls, transmission systems, ac-tuators,
and fluidics. In-depth study of air
conditioning-heating theory and applica-tions.
(6 lab hours; field trips) (Course fee,
$5)
112. Industrial Process
Control Systems I (3)
Prerequisite: IT 52. Process control prin-ciples;
components and principles; trans-ducers,
actuators, sensors, and instrumen-tation;
computer interface software,
terminologies, standards, and trends in con-trol
technologies. Programmable logic con-troller
principles, hardware, and software.
(2 lecture, 2 lab hours)
114. Industrial Materials (3)
Chemical and physical properties of met-als,
polymers, ceramics, composites. Atomic
structure and phases of matter emphasiz-ing
crystalline and amorphous solids. Me-chanical
properties, strength and testing of
materials including impact, hardness, and
tensile. Metallographic, microscopic in-spection
of electronic, and metallic speci-mens.
(2 lecture, 2 lab hours)
115. CAD Principles and Methods (3)
IT 41 recommended prior to enrollment.
Computer-aided design applications. Spe-cial
emphasis in manufacturing, con-struction,
and interior design applications.
Exposure to CAD software packages. (2
lecture, 2 lab hours)
116. Applied Visual Programming (3)
Contemporary computer language used in
office automation and manufacturing in-dustry;
basic concepts on structural pro-gramming,
object-oriented language, pro-gramming
mechanics, user interface
development, and Internet applications. (2
lecture, 2 lab hours)
117. Quality Assurance (3)
Prerequisites: IT 102. Quality assurance
principles and practices in industry: qual-ity
assurance systems, acceptance sam-pling,
testing, source surveillance; prob-material
addition, forming, casting, re-moval,
separation, assembly, and finish-ing.
(2 lecture, 2 lab hours) (Course fee,
$7)
80. Wood Processing Technology (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, $10)
92. Industrial Safety Management (3)
Principles of safety management in an in-dustrial
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.
101. Globalization of Technology
and Society (3)
Prerequisite: junior or senior standing. Ex-plores
the impact of past and current tech-nologies
on the U.S. and world societies.
Topics include the history of technology
and how technology influences the envi-ronmental,
cultural, economic, and politi-cal
institutions of the U.S. and the world.
102. Industrial Computer
Concepts and Applications (3)
Introduction to industrial computer sys-tems.
Comprehensive view of the com-ponents
of a modern industrial information
processing system and the parts each com-ponent
plays in the processing of data. (2
lecture, 2 lab hours)
104. Product Design (3)
Prerequisite: IT 115. Elements, principles,
and methods of design. Emphasis will be
placed on the development of models and
prototypes with attention to standard com-ponents,
productivity, and packaging. (2
lecture, 2 lab hours)
106. Energy Conversion
and Utilization (3)
Fundamental sources of energy, including
the following energy conversion systems:
direct mechanical, external combustion,
internal combustion, solar power, wind
power, electrical and atomic systems. Ex-periments
and demonstrations. (2 lecture,
2 lab hours; field trips)
Object Description
| Title | 2002-03 General Catalog |
| Creator | California State University, Fresno |
| Format | PDF Document |
| Date of publication | 2002-05 |
| Subjects | California State University, Fresno. Curricula. Catalogs |
| Object type | Document |
| Location | Fresno, California |
| Language | eng |
Description
| Title | Page 131 |
| Full Text Search | Industrial Technology Agricultural Sciences & Technology 2002-2003 California State University, Fresno General Catalog 131 ability and statistical concepts, process con-trol techniques and measurement proce-dures as applied to quality. 118. Production Operations (3) Prerequisite: IT 102. A survey of produc-tion manufacturing operations: quality as-surance, 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; IT 118 or equivalent. Strategies on how to implement Computer-Integrated Manufacturing (CIM) for a complete man-ufacturing enterprise. Focuses on CIM sys-tems, opportunities, concerns and solu-tions; design, development, implementa-tion, and operations; and employees’ educational programs. Team efforts and management are emphasized. (2 lecture, 3 lab hours) 120. Vehicle Engine Systems (3) Prerequisites: IT 12, 52 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: IT 12, 74. Advanced study of automotive engine machining including precision measurements, principles of en-gine operation, machining of engine com-ponents, crack detection, assembly proce-dures, lubricating and cooling systems. (6 lab hours; field trips) (Course fee, $6) 122. Vehicle Chassis Analysis (3) Prerequisite: IT 12. Advanced study of vehicle chassis components including power transmission, brake systems, wheel suspen-sion, air conditioning, body repair and refinishing, computer controls and diag-nostics. (2 lecture, 2 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, formula, aero design, walking robot. (6 lab hours) 107. Facilities Planning and Materials Handling (3) Facility planning techniques as applied to facility location, zoning, building codes, line balancing, shipping-receiving, offices, material handling, storage, project sched-uling, and computerized layout. 110. Fluid Power (3) Prerequisite: IT 52. Selective study of fluid power principles and applications; hydrau-lics, pneumatics, and vacuum; includes pumps, controls, transmission systems, ac-tuators, and fluidics. In-depth study of air conditioning-heating theory and applica-tions. (6 lab hours; field trips) (Course fee, $5) 112. Industrial Process Control Systems I (3) Prerequisite: IT 52. Process control prin-ciples; components and principles; trans-ducers, actuators, sensors, and instrumen-tation; computer interface software, terminologies, standards, and trends in con-trol technologies. Programmable logic con-troller principles, hardware, and software. (2 lecture, 2 lab hours) 114. Industrial Materials (3) Chemical and physical properties of met-als, polymers, ceramics, composites. Atomic structure and phases of matter emphasiz-ing crystalline and amorphous solids. Me-chanical properties, strength and testing of materials including impact, hardness, and tensile. Metallographic, microscopic in-spection of electronic, and metallic speci-mens. (2 lecture, 2 lab hours) 115. CAD Principles and Methods (3) IT 41 recommended prior to enrollment. Computer-aided design applications. Spe-cial emphasis in manufacturing, con-struction, and interior design applications. Exposure to CAD software packages. (2 lecture, 2 lab hours) 116. Applied Visual Programming (3) Contemporary computer language used in office automation and manufacturing in-dustry; basic concepts on structural pro-gramming, object-oriented language, pro-gramming mechanics, user interface development, and Internet applications. (2 lecture, 2 lab hours) 117. Quality Assurance (3) Prerequisites: IT 102. Quality assurance principles and practices in industry: qual-ity assurance systems, acceptance sam-pling, testing, source surveillance; prob-material addition, forming, casting, re-moval, separation, assembly, and finish-ing. (2 lecture, 2 lab hours) (Course fee, $7) 80. Wood Processing Technology (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, $10) 92. Industrial Safety Management (3) Principles of safety management in an in-dustrial 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. 101. Globalization of Technology and Society (3) Prerequisite: junior or senior standing. Ex-plores the impact of past and current tech-nologies on the U.S. and world societies. Topics include the history of technology and how technology influences the envi-ronmental, cultural, economic, and politi-cal institutions of the U.S. and the world. 102. Industrial Computer Concepts and Applications (3) Introduction to industrial computer sys-tems. Comprehensive view of the com-ponents of a modern industrial information processing system and the parts each com-ponent plays in the processing of data. (2 lecture, 2 lab hours) 104. Product Design (3) Prerequisite: IT 115. Elements, principles, and methods of design. Emphasis will be placed on the development of models and prototypes with attention to standard com-ponents, productivity, and packaging. (2 lecture, 2 lab hours) 106. Energy Conversion and Utilization (3) Fundamental sources of energy, including the following energy conversion systems: direct mechanical, external combustion, internal combustion, solar power, wind power, electrical and atomic systems. Ex-periments and demonstrations. (2 lecture, 2 lab hours; field trips) |
