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Industrial Technology
Applicants whose preparatory education
was principally in a language other than
English must earn a minimumTOEFLscore
of 550.
Classified Standing. Abaccalaureate degree
is required and an undergraduate major
in technology education, industrial technology,
or a related field; a 3.0 GPA (last 60
semester units); a 450V/430Q GRE score;
separate school application; three letters of
reference from employers or faculty atthe
university attended most recently; a personal
statement of 500 words or less indicating
reasons for pursuing a master's
degree; a preadmission consultation session
with the department graduate program
coordinator. Students lacking in
any area with compensating strengths in
other areas are encouraged to apply.
Conditional classified standing may be
granted to petitioning applicants with a
2.5 to 2.99 GPA (last 60 semester units);
GRE scores on file with the university;
separate school application; three letters
of reference; and a personal statement of
500 words or less. Students must request
classified standing in the program by the
semester in which a maximumof10 units
to be used toward the degree are completed.
Program ReqUirements. Under the direction
of a graduate advisor, each student
prepares and submits a coherent program
individually designed within the following
framework:
Specific Requirements Units
Required courses 15
IT 223, 280, 282, 283, 285
Electives in industrial
technology or related field 12
(approved electives appropriate to
indiVidually designed program; a
maximum of 9 units may be 100-
level courses)
Culminating Experience 3
IT 298 or 299
Total minimum requirements 30
Graduate Advising Notes
1. Several of the 200-level and approved
elective courses have prerequisites
other than courses listed as admission
reqUirements.
2. Students should request specific information
concerning the Master of Science
degree and the program advising
sheet from the department office.
3. Upon admission, students should see
the department graduate program coordinator
for aid in program planning.
134
4. To progress through the graduate program,
students must:
a. Maintain a minimum 3.0 GPA
b. Complete all prerequisite coursework
c. Attain classified standing
d, Meet the graduate writing skills
reqUirement
e. File for advancement to candidacy
f. Complete the program requirements
g. File a master's thesis or project
committee assignment form
h, Formally present and defend the
thesis or project results
5. Classified standing must be achieved
by the semester in which students take
the 10th program unit. All admission
reqUirements must be met. Students
must maintain a 3.0 GPA.
6, Advancement to candidacy reqUires
the completion of 9 program units at
California State University, Fresno, a
minimum GPA of 3.0, meeting the
graduate writing skills reqUirement,
and filing a Petition for Advancement
to Candidacy a minimum of one semester
prior to enrollment in thesis or
project and by established deadline.
7. Students may meet the graduate writing
skills reqUirement by earning a
minimum of 450 verbal on the GRE.
If a minimum of 450 verbal is not
achieved, students shall meet the
graduate writing skills requirement by
earning a score of 80 or higher on the
Upper-Division Writing Examination
(UDWE) or by earning a B or better in
a designated W course to be specified
by the graduate committee of the
School of Agricultural Sciences and
Technology.
8, See Division ofGraduate Studies section
in this catalog for university requirements,
COURSES
Industrial Technology (I T)
12. Basic Vehicle Systems (3)
Design, construction, and mechanical
functions of vehicle engines, fuel systems,
electrical systems, power transmission,
brakes, and wheel suspension; proper
use and safety of tools and eqUipment, (2
lecture, 3 lab hours)
30. Plastics Technology (3)
Technical information on compOSition,
characteristics, and uses ofplastics; eqUipment
design principles and manufacturing
processes. (6 lab hours; field trips)
(Course fee, $4)
41. Industrial Design Graphics (3)
Application of the fundamentals of industrial
design graphics. Sketching, lettering,
orthographiC projection, working draWings/
auxiliary views, dimensioning, developments,
pictorial drawings, duplication;
interrelationship to the design process.
Introduction to CAD. (6 lab hours)
44. Descriptive Geometry (3)
PrereqUisite: I T 41 or permission of instructor,
Descriptive geometry as related
to design processes, A nonmathematical
approach to geometric magnitudes and
the relationship between points, lines,
and planes in space. Application of these
principles in solVing a variety of technological
design problems. (6 lab hours)
52. Basic Electricity (3)
(Same as Me Ag 53.) Introduction to electricity
including fundamentals of electrostatics,
alternating and direct current
electrical circuits, electrical calculations,
magnetiCS, circuit applications, electrical
measuring, and test eqUipment. (1 lecture,
4 lab hours) (Course fee, $5) (Formerly
AET 53)
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, 4lab hours)
(Course fee, $5)
60. Basic Graphic Arts (3)
Introduction to the graphiC arts; letterpress,
photo offset lithography, screen
printing; layout, composition, imposition,
presswork, bindery. (6 lab hours; field
trips) (Course fee, $6)
71. Metallurgical Processes (3)
(Same as Me Ag 50.) 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.
(2 lecture, 3 lab hours) (Course fee, $7)
(Formerly AET 50)
74. Manufacturing Processes (3)
Material removal by turning and milling
operations on aluminum, brass, steel,
plastic and wood. Material fusing and
severing operations on metals and plastics,
Nonferrous metal casting and thin
gauge metal and plastic forming operations.
(6 lab hours) (Course fee, $7)
Object Description
| Title | 1997-98 General Catalog |
| Creator | California State University, Fresno |
| Format | PDF Document |
| Date of publication | 1997-05 |
| Subjects | California State University, Fresno. Curricula. Catalogs |
| Object type | Document |
| Location | Fresno, California |
| Language | eng |
Description
| Title | Page 134 |
| Full Text Search | Industrial Technology Applicants whose preparatory education was principally in a language other than English must earn a minimumTOEFLscore of 550. Classified Standing. Abaccalaureate degree is required and an undergraduate major in technology education, industrial technology, or a related field; a 3.0 GPA (last 60 semester units); a 450V/430Q GRE score; separate school application; three letters of reference from employers or faculty atthe university attended most recently; a personal statement of 500 words or less indicating reasons for pursuing a master's degree; a preadmission consultation session with the department graduate program coordinator. Students lacking in any area with compensating strengths in other areas are encouraged to apply. Conditional classified standing may be granted to petitioning applicants with a 2.5 to 2.99 GPA (last 60 semester units); GRE scores on file with the university; separate school application; three letters of reference; and a personal statement of 500 words or less. Students must request classified standing in the program by the semester in which a maximumof10 units to be used toward the degree are completed. Program ReqUirements. Under the direction of a graduate advisor, each student prepares and submits a coherent program individually designed within the following framework: Specific Requirements Units Required courses 15 IT 223, 280, 282, 283, 285 Electives in industrial technology or related field 12 (approved electives appropriate to indiVidually designed program; a maximum of 9 units may be 100- level courses) Culminating Experience 3 IT 298 or 299 Total minimum requirements 30 Graduate Advising Notes 1. Several of the 200-level and approved elective courses have prerequisites other than courses listed as admission reqUirements. 2. Students should request specific information concerning the Master of Science degree and the program advising sheet from the department office. 3. Upon admission, students should see the department graduate program coordinator for aid in program planning. 134 4. To progress through the graduate program, students must: a. Maintain a minimum 3.0 GPA b. Complete all prerequisite coursework c. Attain classified standing d, Meet the graduate writing skills reqUirement e. File for advancement to candidacy f. Complete the program requirements g. File a master's thesis or project committee assignment form h, Formally present and defend the thesis or project results 5. Classified standing must be achieved by the semester in which students take the 10th program unit. All admission reqUirements must be met. Students must maintain a 3.0 GPA. 6, Advancement to candidacy reqUires the completion of 9 program units at California State University, Fresno, a minimum GPA of 3.0, meeting the graduate writing skills reqUirement, and filing a Petition for Advancement to Candidacy a minimum of one semester prior to enrollment in thesis or project and by established deadline. 7. Students may meet the graduate writing skills reqUirement by earning a minimum of 450 verbal on the GRE. If a minimum of 450 verbal is not achieved, students shall meet the graduate writing skills requirement by earning a score of 80 or higher on the Upper-Division Writing Examination (UDWE) or by earning a B or better in a designated W course to be specified by the graduate committee of the School of Agricultural Sciences and Technology. 8, See Division ofGraduate Studies section in this catalog for university requirements, COURSES Industrial Technology (I T) 12. Basic Vehicle Systems (3) Design, construction, and mechanical functions of vehicle engines, fuel systems, electrical systems, power transmission, brakes, and wheel suspension; proper use and safety of tools and eqUipment, (2 lecture, 3 lab hours) 30. Plastics Technology (3) Technical information on compOSition, characteristics, and uses ofplastics; eqUipment design principles and manufacturing processes. (6 lab hours; field trips) (Course fee, $4) 41. Industrial Design Graphics (3) Application of the fundamentals of industrial design graphics. Sketching, lettering, orthographiC projection, working draWings/ auxiliary views, dimensioning, developments, pictorial drawings, duplication; interrelationship to the design process. Introduction to CAD. (6 lab hours) 44. Descriptive Geometry (3) PrereqUisite: I T 41 or permission of instructor, Descriptive geometry as related to design processes, A nonmathematical approach to geometric magnitudes and the relationship between points, lines, and planes in space. Application of these principles in solVing a variety of technological design problems. (6 lab hours) 52. Basic Electricity (3) (Same as Me Ag 53.) Introduction to electricity including fundamentals of electrostatics, alternating and direct current electrical circuits, electrical calculations, magnetiCS, circuit applications, electrical measuring, and test eqUipment. (1 lecture, 4 lab hours) (Course fee, $5) (Formerly AET 53) 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, 4lab hours) (Course fee, $5) 60. Basic Graphic Arts (3) Introduction to the graphiC arts; letterpress, photo offset lithography, screen printing; layout, composition, imposition, presswork, bindery. (6 lab hours; field trips) (Course fee, $6) 71. Metallurgical Processes (3) (Same as Me Ag 50.) 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. (2 lecture, 3 lab hours) (Course fee, $7) (Formerly AET 50) 74. Manufacturing Processes (3) Material removal by turning and milling operations on aluminum, brass, steel, plastic and wood. Material fusing and severing operations on metals and plastics, Nonferrous metal casting and thin gauge metal and plastic forming operations. (6 lab hours) (Course fee, $7) |
