UCC Minutes for April 13, 2006
Present:
Regular Members:
A. Arnold , E. Arnold, J. Neil, J. Lewis, C. Estes, P. Schwager,
Ex Officio
Members: L. Griffin, R. Mitchelson, D. Long
Administrative:
D. Coltraine
Absent: , R. M.
Schinasi, D. K. Dobney (SGA rep.) L.
Warren
1.
2:10
Approval of minutes of March 9, 2006
Minutes were modified and approved unanimously by the committee.
The corrected version will be sent to the senate for posting.
2. 2:20: Chemistry Department
Proposal from the Chemistry Department related to new courses:
memo, 1500, 1510/11, documents, marked, signature sheet. (these will be emailed
to the members)
Dr. Gerow from Chemistry presented the proposals for new courses.
These new courses are being developed primarily for use by the Engineering
program. After discussion the proposals were approved without dissent.
The committee notes that catalog copy submitted by the Chemistry
Department included changes to the B.S. in Engineering degree program. UCC was
unable to approve those changes as they must be brought to UCC by the
Department of Technology Systems.
3. 2:40:
Department of Technology Systems
a. Proposal from the Department of Technology Systems,
Industrial Engineering Technology. Memos, signature, support, 3600, 4020, 4023,
4092, 4900, 4401, marked. (these will be emailed to the members)
Proposal
from the DTS included change of prefix (MANF to IENG), degree requirement
modifications (BS, Industrial Engineering Technology), new courses (IENG
3600, 4092, 4900, 4401), revision of existing courses (IENG 4020, 4023),
prerequisite changes (ITEC 3800, IENG 3020, 3300, 4200), and deletion of banked
courses (MANF 4092, 4093). The proposals were discussed and approved
without dissent.
b. Proposal from the
Department of Computer Science related to changes in degree requirements, banking
of courses, change in prerequisites, and WI designation. (these will be emailed
to the members)
The curriculum changes requested by computer science are primarily
clean up to make the catalog consistent with changes that were approved last
year. The courses being banked were in the old core, and CSCI 4000 is being
added to the core for assessment purposes. The changes were discussed and
unanimously approved.
c. Memo related
to WI designation for Industrial Technology courses. (these will be emailed to
the members)
Catalog copy submitted with these minutes reflects this change.
3. Business: Discussion
a. Discussion related
to the material presented by Dr. Knickerbocker.
The changes brought forward by Dr. Knickerbocker were discussed
again and the committee agreed that the changes proposed by EPPC added clarity
to the charges of the two committees. Dr. Arnold will send an email to Dr.
Knickerbocker to that effect, with one suggestion to nsert a line on page 2 in
the section “Curriculum Approval Process,” between “Writing across the
curriculum….” and the “Chairperson to read:
“Communicate with units and programs that may be directly or
indirectly affected by the curriculum.”
b. Discussion related
to the letter from Dr. Rigsby (to be presented at the meeting).
Dr. Rigsby requests that the UCC review the need for the liaison
program early next year. If the UCC decides to continue with the program, Dr.
Rigsby requested a formal proposal be sent to the senate.
This year’s committee is putting on the record that the liaison
system has resulted in curriculum that is properly prepared and can be approved
with minimal discussion. Prior to the liaison system it was common for
proposals to return to the UCC several times before they could be passed. It
was suggested that problems with the system include some liaisons taking more
authority than was intended, and it was felt this issue could be dealt with
through enhanced training and communication. The liaison is not intended to be
a formal approval step but a facilitator to ensure the development of
consistent, quality curriculum. We have
observed continuous improvements in the process and over time we expect the process
to be even smoother.
A survey of the effectiveness of the liaison system is currently
underway and the results of that survey will be considered in the fall and
incorporated into any suggestions made.
c. Discussion related
to liaison manual for next year.
General suggestions included:
(1) Add clarity to the role of the liaison, including
clarification that the liaison is a facilitator of curriculum process and
should be neutral on merits of the proposal, which is to be written and
approved by departmental faculty. The liaison does not approve curriculum but
is a facilitator.
(2) Add emphasis to the need to check with directly and indirectly
affected units.
(3) Regarding attendance at UCC meetings, it could be clarified
that whenever possible the liaison should accompany department faculty to the
UCC meeting.
Diane Coltraine agreed to circulate the manual with suggested
changes to UCC members for input.
d.
Discussion about academic affairs support
request for next year.
Academic Programs has planned, in collaboration with the graduate
school, to be able to provide support for UCC and GCC. This support will take
the form of the posting of agenda items, following the direction of the UCC
Chair who creates the agenda and forwards the files to Academic Programs. In addition AP will plan to provide a master
marked catalog document that would be emailed to the UCC secretary prior to
each meeting.
Academic Programs will also continue to provide support in the
form of training in preparation of curriculum proposals and catalog copy to all
university faculty upon request.
At this juncture, UCC cannot omit the need for unmarked catalog
minutes because they will be necessary for the electronic updates.
UCC will not be able to omit the need for units to find and
correct other catalog occurrences of their curriculum changes because it would
not be possible to foresee how such changes would affect the units. However, AP
will continue to provide training for units to complete this function.
e. Discussion of
annual report
Ellen
Arnold will send the annual report via email and requests feedback from
committee members.
Final
Note: These minutes were approved by the 2005-2006 UCC on April 17, 2006 by
3:00 p.m.
Submitted
by Dr. Cheryl Estes, UCC Secretary
UCC Meeting April 13,
2006
Marked Catalog Copy
Chemistry
Insert
on pp. 329-332 of 2005 – 2006 catalog:
329
CHEM: CHEMISTRY
0150. Preparation for College Chemistry
(2) (F,S,SS) 3 lectures per week.
May not count toward general education science requirement. C: MATH 1065.
Intensive review and study of basic chemical laws and mathematical tools needed
for further study in general chemistry.
1020. General Descriptive Chemistry (4)
(F,S) (GE:SC) May not count toward
general education science requirement for science majors. General chemistry for
nonscience majors.
330
1021. General Descriptive Chemistry
Laboratory (1) (F,S) (GE:SC) 3
lab hours per week. Chemistry lab for nonscience majors. P/C: CHEM 1020. Lab
experiences illustrate fundamental chemical principles and relevance of
chemistry in modern world. Topics include chemical measurements, acids,
synthesis and purification of biochemical substances and DNA fingerprinting.
1120. Basic General, Organic, and
Biochemistry I (4) (F,S,SS) (GE:SC) May
not count toward general education science requirement for science majors.
General, organic, and biochemistry and chemical applications in health
professions.
1121. Basic General, Organic, and
Biochemistry Laboratory I (1) (F,S) (GE:SC) 3 lab hours per week. C: CHEM 1120. Introduces lab
techniques in general, organic, and biochemistry.
1130. Basic General, Organic, and
Biochemistry II (3) (F,S,SS) (GE:SC) May
not count toward general education science requirement for science majors. P:
CHEM 1120. Continuation of CHEM 1120.
1131. Basic General, Organic, and
Biochemistry Laboratory II (1) (F,S,SS) (GE:SC) 3 lab hours per week. C: CHEM 1130.
Continuation of CHEM 1121.
1150, 1151. General Chemistry and
Laboratory I (3,1) (F,S,SS) (GE:SC) For
science majors. 3 lecture and 3 lab hours per week. P: Chemistry placement test
or passing grade in CHEM 0150; P/C: MATH 1065; C for 1150: CHEM 1151; C for
1151: CHEM 1150. Basic principles and laws of chemistry. Topics include
measurements, reactions and
stoichiometry,
thermochemistry, atomic structure, periodicity, bonding and molecular
structure, and states of matter.
1160, 1161. General Chemistry and
Laboratory II (3,1) (F,S,SS) (GE:SC) 3
lecture and 3 lab hours per week. P: CHEM 1150, 1151; C for 1160: CHEM 1161; C
for 1161: CHEM 1160; RC: MATH 1083 or 1085. Continuation of CHEM 1150. Topics
include solutions, kinetics, equilibrium, acid-base theory, thermodynamics, and
electrochemistry. Introduces organic, nuclear, and coordination chemistry.
1500. Materials
Chemistry I (3) (S) Chemistry of
elements and compounds, atomic structure, molecular geometry and intermolecular
forces and their effect on the design and uses of materials. May not count toward chemistry major.
1510, 1511. Materials
Chemistry II and Laboratory (1,1) (F) 1 hour lecture and 3 hours lab per week. P: CHEM 1500; C for CHEM
1510: CHEM 1511; C for CHEM 1511: CHEM 1510 Continuation of CHEM 1500.
Chemistry of elements and compounds, equilibrium, thermodynamics and kinetics
and their effect on the design and uses of materials. Lab experience demonstrates chemical
properties of materials. May not count
toward chemistry major.
2103. Introduction to Chemical
Literature (1) (WI) (F,S) P:
CHEM 2750. Introduces methods used to search and access chemical literature.
Development of technical writing skills.
2111. Applications of Molecular
Modeling (1) (F,S) (GE:SC) P/C:
CHEM 2750. Applies molecular modeling to explore relationships between
molecular structure and molecular properties.
2250, 2251. Quantitative and
Instrumental Analysis (3,2) (WI, WI) (F,S) 3 lecture and 6 lab hours per week. P: CHEM 1160, 1161; 1
semester of organic CHEM; C for 2250: CHEM 2251; C for 2251: CHEM 2250.
Theories and techniques of classical quantitative and modern instrumental
analysis.
2301. Teaching Laboratory Chemistry
(2,0) (F,S) 1 lecture and 3 lab
hours per week. P: CHEM 1160, 1161. Instruction and supervised experience in
methods and practice of teaching introductory chemistry lab.
2650. Organic Chemistry for the Life
Sciences (4) (F) May
not count toward CHEM major or minor. May not substitute as a prerequisite for
CHEM 2760. P: CHEM 1160, 1161. Principles of organic chemistry. Emphasis on
biologically
important topics.
2651. Organic Chemistry Lab for the
Life Sciences (1) (F) 3
lab hours per week. May not count toward CHEM major or minor. May not
substitute as a prerequisite for CHEM 2763. C: CHEM 2650. Organic lab
techniques.
2750. Organic Chemistry I (3) (F,S,SS) P: CHEM 1160, 1161; C: CHEM 2753.
Classes of compounds and their typical reactions, mechanisms, stereochemistry,
and instrumental methods in organic chemistry.
2753. Organic Chemistry Laboratory I
(1) (F,S,SS) 3 lab hours per week C:
CHEM 2750. Organic lab techniques.
2760. Organic Chemistry II (3) (F,S,SS)
P: CHEM 2750; C: CHEM 2763.
Continuation of CHEM 2750.
2763. Organic Chemistry Laboratory II
(1) (F,S,SS) 3 lab hours per week P:
CHEM 2750, 2753; C: CHEM 2760. Continuation of CHEM 2753.
331
2770. Biological Chemistry (3) (F,S)
(GE:SC) P: CHEM 2650 or 2760.
Chemistry and intermediary metabolism of proteins, carbohydrates, lipids, and
nucleic acids.
2771. Biological Chemistry Laboratory
(1) (F,S) (GE:SC) 3
lab hours per week. C: CHEM 2770. Applies chemical lab techniques to study of
proteins, carbohydrates, lipids, and nucleic acids.
3301. Practicum in Teaching (1) (F,S) 3 lab hours per week. May be repeated
for credit. May count maximum of 4 s.h. toward CHEM major. P: CHEM 2301 and
consent of instructor. Supervised practicum in teaching introductory chemistry
lab.
3450. Elementary Inorganic Chemistry
(3) (S) P: CHEM 2250, 2251; C:
CHEM 3451. Survey of fundamental concepts and theories of inorganic chemistry,
periodicity, descriptive chemistry of selected main group elements and
transition
metals, and their role
in organometallic, bioinorganic, and industrial chemistry.
3451. Elementary Inorganic Chemsitry
Laboratory (1) (WI) (F,S) P:
CHEM 2250, 2251; C: CHEM 3450 or 5550. Inorganic laboratory techniques,
physical methods, and the synthesis and characterization of inorganic and
organometallic compounds.
3501, 3502, 3503. Special Topics in
Chemistry (1,2,3) May
be repeated for maximum of 6 s.h. with change of topic. May not count toward
general education science credit. P: CHEM 1160; consent of instructor. Selected
topics of contemporary interest.
3850, 3851. Introduction to Physical
Chemistry (4,1) (WI, WI) (F) 4
lecture and 3 lab hours per week. P: CHEM 1160, 1161; MATH 2122 or 2172; PHYS
1260, 1261; C for 3850: CHEM 3851; C for 3851: CHEM 3850. Physical chemistry
for students with limited mathematical background.
3950, 3951. Physical Chemistry and
Laboratory I (4,1) (WI, WI) (S) 4
lecture and 3 lab hours per week. P: CHEM 2250, 2251; MATH 2173; PHYS 1261,
2360; C for 3950: CHEM 3951; C for 3951: CHEM 3950. Theoretical and
mathematical treatment of fundamental laws and theories underlying science of
chemistry.
3960, 3961. Physical Chemistry and
Laboratory II (4,1) (WI, WI) (F) 4
lecture and 3 lab hours per week. P: CHEM 3950, 3951; C for 3960: CHEM 3961; C
for 3961: CHEM 3960. Continuation of CHEM 3950, 3951.
4103. Seminar (1) (F,S) P: Junior or senior standing; CHEM
2103. Discuss contemporary topics in chemistry, instruction on technical
presentations, and submission of written and oral reports on approved topics.
Requires attendance at selected
departmental seminars.
4505, 4506, 4507. Independent Study
(1,2,3) (F,S,SS) May
be repeated for credit. May count a maximum of 3 s.h. toward CHEM major. P:
Consent of instructor and dept chair. Individual study in selected area of
chemistry under immediate direction of faculty member.
4515, 4516, 4517. Research Problems in
Chemistry (1,2,3) (F,S,SS) May
be repeated for credit. May count maximum of 6 s.h. toward CHEM major. P:
Consent of instructor. Advanced problems in chemistry pursued under supervision
of faculty member.
5350, 5351. Instrumental Analysis (3,1)
(WI, WI) 3 lecture and 3 lab
hours per week. P: CHEM 3960; C for 5350: CHEM 5351; C for 5351: CHEM 5350.
Theory and practical uses of modern instrumental methods of chemical analysis.
5525, 5526, 5527. Special Topics
(1,2,3) May be repeated for
credit with change of topic. P: Consent of instructor. Selected topics of
current interest in areas of analytical, inorganic, organic, and physical
chemistry.
5550. Advanced Inorganic Chemistry (4)
(F) P: CHEM 3950; C: CHEM
3451 (for BS chemistry majors only). Advanced treatment of atomic and molecular
structure, molecular symmetry, group theory, MO theory, the solid state and
ionic bonding, transition metal coordination and organometallic compounds,
homogeneous catalysis, and acid-base, redox, and bioinorganic chemistry.
332
5750. Advanced Organic Chemistry (3) P: CHEM 2760; P/C: CHEM 3960. Physical
organic topics, including aromaticity, acid/base chemistry, reactive
intermediates, mechanisms of common organic reactions, and relationship between
structure and reactivity.
5760. Organic Structure Elucidation (3)
P: Consent of instructor. Applies
modern instrumental methods to elucidation of structures of organic compounds,
with particular regard to elucidation of complex structures from combined
application of spectral tools.
5993. Industrial Internship in
Chemistry (3) 25-30 lab hours per
week. May count maximum of 3 s.h. toward CHEM major. May be repeated. P:
Selection by joint Department of Chemistry/Industry screening committee; CHEM 2250,
2760, 3950. Professional experience in industrial application of chemistry.
CHEM Banked Courses
1163. Introduction to Computer
Techniques 5450. Industrial Chemistry (3)
in Experimental Chemistry (1) 5560.
Inorganic Reaction Mechanisms (2)
3860, 3861. Introduction to Instrument-
5950, 5951. Introduction to Nuclear
Computer Interfacing (2,1) Chemistry
(2,1)
5390. Bioanalytical Chemistry (2) 5970.
Chemical Thermodynamics (2)
TECHNOLOGY
SYSTEMS – IET DEPARTMENT
INSERT
ON Page 108
EHST
2110. Introduction to Environmental Health Science (3) (F,S)
GEOG
3003. Political Geography (3) (WI) (S) (GE:SO)
GEOG
3410. Fundamentals of GIS (3) (F,S)
HIST
3260. U.S. and the Middle East, 1783 to the Present (3)
ICTN
2900, 2901. Fundamental Network Security (3,0) (P: ICTN 2154)
JUST
1000. Criminal Justice Systems (3) (F,S,SS)
MANFITEC 3800. Cost and Capital Project Analysis
(3) (S) Formerly MANF 3800 (P: MATH 1065; MATH 2283 or ITEC 3200)
PLAN
1900. Planning for the Human Environment (3) (F,S,SS)
PLAN
3051. Introduction to GIS in Planning (3) (F,S) (P:GEOG 3410 or consent of
Instructor)
PLAN
4015. Emergency Planning Management (3) (F,SS)
POLS
3144. American Foreign Policy (3) (S) (RP: POLS 2020)
POLS
3155. National Security Policy (3) (F,S)
POLS
3290. Confl ict and Peace in the Post Cold War Age (3) (S)
POLS
3293. International Organizations (3)
POLS
4380. Topics in International Politics (3) (P: POLS 2020 or Consent of
Instructor)
POLS
4382. Politics of Terrorism (3) (S)
POLS
4383. War in the Modern Age (3)
SOCI
3235. Population Trends and Problems (3)(GE:SO)(P: SOCI 2110)
INSERT
ON Page 283
DEPARTMENT OF TECHNOLOGY SYSTEMS
Paul J. Kauffmann, Chairperson, Suite 200 Science and
Technology Building
Admission
Upon
admission to the university, students may declare a major in one of the
following degree programs: design, industrial distribution and logistics, industrial engineering technology, or information
and computer technology, or manufacturing.
The technology systems degree programs are accredited by the National Association
of Industrial Technology. The minimum degree requirement is 126
s.h. of credit.
REVISION
TO PAGE 290; RELOCATE TO PAGE 286
BS in ManufacturingIndustrial Engineering Technology
Minimum
degree requirement is 126 s.h. of
credit as follows:
1.
General education requirements (See Section 4, General Education Requirements
for all
Baccalaureate
Degree Programs), including those listed below
......................................... 42 s.h.
COMM 2410. Public Speaking (3) (F,S,SS)
(GE:FA) or COMM 2420. Business and Professional Communication (3) (F,S,SS)
(GE:FA)
ECON 2113. Principles of Microeconomics
(3) (F,S,SS) (GE:SO)
MATH 1065. College Algebra (3) (F, S, SS)
(GE: MA) (P: Appropriate score on mathematics placement test) or MATH1066.
Applied Mathematics for Decision Making (3) (F,S, SS) (GE:MA) (P: Appropriate
score on mathematics placement test or approval of dept chair)
PHYS 1250, 1260. General Physics (3,3)
(F,S,SS) (GE:SC) (P for 1250: MATH 1065 or 1066; P for 1260: PHYS 1250)
PHYS 1251, 1261. General Physics
Laboratory (1,1) (F,S,SS) (GE:SC) (C for 1251: PHYS 1250 or 2350; C for 1261:PHYS
1260 or 2260)
PSYC 1000. Introductory Psychology (3)
(F,S,SS) (GE:SO)
PSYC 3241. Personnel and Industrial
Psychology (3) (F,S,SS) (GE:SO) (P: PSYC 1000 or 1060)
2.
Core
........................................................................................................................ 66 s.h.
DESN 2034, 2035. Engineering Graphics I
(3,0) (F,S,SS) (P: ITEC 2000 or MIS 2223)
DESN 2036, 2037. Computer-Aided Design and
Drafting (3,0) (F,S,SS) (P: DESN 2034)
DESN 3032, 3033. Engineering
Graphics II (3,0) (S) (P: DESN 2034)
DESN 3236, 3237. Geometric
Dimensioning and Tolerancing (3,0) (F OY) (P: DESN 3032; MATH 1074; ITEC 3200or
MATH 2283)
ITEC 2000. Industrial Technology
Applications of Computer Systems (3) (F,S,SS)
ITEC 2010. Introduction to
Industry and Technology (3) (F,S)
ITEC 2054, 2055. Electricity/Electronics
Fundamentals (3,0) (F,S) Formerly ELEC 2054, 2055 (P:
MATH 1065 or 1066 or 1085 or 2119)
ITEC 2080, 2081. Thermal and Fluid Systems
(3,0) (S) (P: MANFIENG 2020)
ITEC 2090, 2091. Electromechanical Systems
(3,0) (F) (P: ITEC 2054)
ITEC 3290. Technical Writing (3) (WI)
(F,S,SS) (P: ENGL 1200)
ITEC 3292. Industrial Safety (3) (F,S) (P:
Junior standing)
ITEC 3300. Technology Project Management
(3) (F,S) (WI) Formerly ELEC 3300 (P:
ENGL 1200; ITEC 2000 or MIS 2223)
ITEC 3800. Cost and Capital Project
Analysis (3) (S) Formerly MANF 3800 (P: MATH 2283 1065or ITEC 3200)
ITEC 4293. Industrial Supervision (3) (WI)
(SF)
(P: Senior standing or approval of instructor)
ITEC
4300. Quality Assurance Concepts (3) (F,S) (P: ITEC 3200 or MATH 2283)
MANFIENG 2020, 2021. Materials and Processes
Technology (3,0) (WI*) (F,S,SS) Formerly ITECMANF
2020, 2021 (P: ITEC 2000 or MIS 2223)
MANFIENG 2076, 2077. Introduction to Computer
Numerical Control (CNC) (3,0) (F,S) Formerly MANF
2076, 2077 (P: DESN 2034)
MANFIENG 3020, 3021. Introduction to Computer
Integrated Manufacturing (3,0) (S) Formerly MANF
3020, 3021 (P: ITEC 2090; MANFIENG 2076)
MANFIENG 3300. Plant Layout and Materials Handing
(3) (F) Formerly MANF
3300 (P: MANFIENG 2020)
IENG 3600 Statics and Strength
of Materials (3) (F) (P: IENG 2020, MATH 2119)
MANFIENG 4020, 4021.
Manufacturing System Planning (3,0) (F,S) Formerly
MANF 4020 (P: MANF
2020, 3300ITEC 3200; MATH 2119)
MANFIENG 4023. Advanced Manufacturing Systems (3)
(S) Formerly MANF
4023 (P: MANF 4020IENG 3300)
IENG 4092 Operation Research
(3) (S) (P: IENG 3300, MATH 2119)
MANFIENG 4200. Work Methods and Ergonomic Analysis
(3) Formerly MANF
4200 (S) (P: ITEC 3292; MANF 2020IENG 4020)
IENG 4900 Capstone (3) (F,S)
(P: Senior Standing)
3. Cognates
........................................................................................................................................
12 s.h.
CHEM 1020 General Descriptive Chemistry (4) (F,S)
FINA 2244. Legal Environment of
Business (3) (F,S,SS)
ITEC 3200. Introduction to Statistical
Process Control (3) (F,S) (P: MATH 1065 or 1066 or equivalent) or MATH2283. Statistics
for Business (3) (F,S,SS) (P: MATH 1065 or 1066 or equivalent)
MATH 1074. Applied Trigonometry (2)
(F,S,SS) (P: MATH 1065)
Choose 4 s.h. CHEM electives,
excluding CHEM 0150
MATH 2119: Elements of Calculus
(3) (F,S,SS) ( P: MATH 1065 with minimum grade of C.)
4. Approved eElectives
to complete requirements for graduation.
INSERT
ON Page 298
IDMR Interior
Design and Merchandising College
of Human Ecology
IENG Industrial Engineering Technology College
of Technology and Computer Science
INTE Interdepartmental
Brody
School of Medicine
INTL International
Studies Thomas
Harriot College of Arts and Sciences
IPAM Indigenous
Peoples of the Americas Department
of History
IRHE Interdisciplinary
Rural Health Education Brody
School of Medicine
ITAL Italian
Department
of Foreign Languages and Literatures
ITEC Industrial
Technology College
of Technology and Computer Science
JAPN Japanese
Department
of Foreign Languages and Literatures
JUST Criminal
Justice College
of Human Ecology
LATN Latin
Department
of Foreign Languages and Literatures
LDVP Leadership
Development Center
for Leadership Development
LEED Educational
Leadership College
of Education
LIBS Library
Studies College
of Education
MANF Manufacturing College
of Technology and Computer Science
MAST Maritime
Studies Coastal
Resources Management
REVISION
TO PAGE 415; RELOCATE TO PAGE 409
MANF:
ManufacturingIENG: Industrial Engineering
Technology
2020, 2021. Materials and Processes
Technology (3,0) (WI*) (F,S,SS) Formerly ITEC MANF 2020,
2021 P: ITEC 2000 or DSCI 2223. Factors which
influence the production and modification of materials into useful forms.
Various manufacturing processes and machinery used to convert raw materials
into finished products. Hands on experience with materials and processes used
in industry.
2076, 2077. Introduction to Computer
Numerical Control (CNC) (3,0) (F,S) Formerly MANF
2076, 2077 2 hours lecture and 2 hours
lab per week. P: DESN 2034. Review of fundamental manual programming for
numerical control machines. Topics include CNC machine types, controls, safety,
and coordinate measuring systems; CNC speed and feed calculations, tooling and
fixturing; and programming CNC mills and lathes; computer controlled laser
cutting and engraving. Self-paced. Hands-on experience with CNC machines and
simulations in virtual reality.
3020, 3021. Introduction to Computer
Integrated Manufacturing (3,0) (S) Formerly MANF
3020,3021 2 lecture and 2 lab hours per week. P:
ITEC 2090; MANF IENG 2076. Introduces computer integrated manufacturing
processes. Develop basic understanding of manufacturing processes used to make
products, application and potential benefits of automation and computer
integrated manufacturing (CIM) concepts. Information on the way computer-based
systems support operation of manufacturing business. Hands-on experience with
tools and systems used in industry. Special attention to computer-aided design
(CAD), computer aided manufacturing (CAM), industrial robots and supporting
technologies, including automated data capture (primarily bar code).
Fundamentals concepts reinforced using industrial software and hardware.
3300. Plant Layout and Materials Handling
(3) (F) Formerly MANF 3300 P:
MANF IENG
2020. Examines integrated plant layout and materials handlings approaches.
Covers simulation as analytical tool.
3600. Statics and Strength of Materials (3) (F) P: IENG 2020, MATH 2119. Statics
including vectors, moments, equilibrium of structures, centroids and moments of
inertia. Strength of materials including basic stresses and deformations; beam
diagrams, flexure and shear.
4020, 4021. Manufacturing System Planning (3,0) (F) 2 lecture and 2 lab hours per week.
Formerly MANF 4020 P:
MANF 2020, 3300 ITEC 3200; MATH 2119. Processes
for manufacturing various products. Emphasis on selection criteria such as
safety, material, jigs, fixtures, layout, and overall efficiency.Introduction to manufacturing planning including system
concepts such as strategy, product design, learning curves, forecasting,
aggregate planning, stochastic inventory control, reliability models, linear
programming, and scheduling.
4023. Advanced Manufacturing Systems (3)
(S) Formerly MANF 4023 P:
MANF 4020 IENG
3300. Advances in technology, which occur
in the manufacturing sector. Focus on computer-based technologies which improve
productivity, reduce manufacturing costs, and produce high quality products.
Design of advanced manufacturing
systems through the incorporation of lean manufacturing techniques, value
stream mapping, lean business processes, kaizen, visual workplace organization,
total productive maintenance, setup reduction, poke yoke, lean accounting and
theory of constraints.
4092. Operations Research (3) (S) P: IENG 3300, MATH 2119. Application
of operations research models to industrial engineering problems. Linear
programming, sensitivity analysis, transportation models, network models,
queuing models, dynamic programming, game theory and simulation.
4200. Work Methods and Ergonomics Analysis
(3) (S) Formerly MANF 4200 P:
ITEC 3292; MANF 2020 IENG 4020. Work methods and study of work
measurement systems. Principles of motion study, work simplification, and work
measurement by direct and predetermined motion-time systems.
4401, 4402, 4403.
Independent Study: Industrial Engineering Technology (1, 2, 3) P: Consent of instructor. Special topics in selected areas of
Industrial Engineering Technology. Exploration and research in personal areas
of interest.
4502. Laboratory Problems: Production (3)
(F,S) Formerly MANF 4502 6
lab hours per week. Independent study of industrial manufacturing systems,
processes, and concepts.
4507. Laboratory Problems: Metals (3) Formerly MANF 4507 6
lab hours per week. P: MANF 2076. In depth and independent study of concepts
and/or processes of metals area, its tools, and materials. Emphasis on lab
work.
4900. Capstone (3) (F,S) P: Senior Standing. Hands-on
industrial project. Teams of students will work directly with individual
clients or organizations to improve their processes through the implementation
of industrial engineering technology principles and tools.
5504. Independent Study: Manufacturing (3) Formerly MANF 5504 May
be repeated for credit with consent of dept chair. P: Consent of instructor.
Research-oriented problem solving with tools, materials, and processes of
manufacturing industries.
MANFIENG
Banked Courses
2066,
2067. Polymeric Materials (3,0)
4094,
4095. Industrial Maintenance (3,0)
2072,
2073. Metals Technology I (3,0)
4501. Laboratory Problems: Maintenance (3)
3072. Metals Technology (3)
5060. Organic Matrix Composite Materials (3)
4060, 4061. Woods Products Manufacturing (3,0)
5090, 5091. Fluid Power Circuits (3,0)
4092, 4093. Manufacturing (3,0)
CSCI DEPARTMENT
INSERT
ON Page 279-280
BA in Computer Science
Credit
toward a computer science major will not be given for any CSCI course with a
grade less than C being used to satisfy the requirements specified in the core.
Minimum degree requirement is 126 s.h. of
credit as follows:
1.
General education (See Section 4, General Education Requirements for all
Baccalaureate Degree
Programs.).....................................................................................
42 s.h.
2.
Foreign language through level 1004 (preferably French, German, or Russian)
..... 12 s.h.
3.
Core ..................................................................................................................................
35 s.h.
CSCI
2300. Computer Science Survey (3) (F,S,SS)
CSCI
2310, 2311. Algorithmic Problem Solving and Programming Laboratory (4,0)
(F,S,SS)
(P: MATH 1065; C for 2310: CSCI 2311; C for
2311: CSCI 2310)
CSCI
3300. Introduction to Algorithms and Data Structures (4) (F,S,SS) (P: CSCI
2300, 2310;
C:
CSCI 2427)
CSCI
3310. Advanced Data Structures and Data Abstraction (3) (F,S,SS) (P: CSCI 2427, 3300)
CSCI
3526. Switching Theory and Computer Organization (3) (F,S,SS) (P: CSCI 2310 or
2610;
CSCI 2427)
CSCI
3650. Analysis of Algorithms (3) (S,SS) (P: CSCI 3310 or 3510; CSCI 2427) or
CSCI 4602.
Theory of Automata and Linguistics (3) (F)
(P: CSCI 2427; CSCI Major)
CSCI
3675. Organization of Programming Language (3) (F,SS) (P: CSCI 3310 or 3510)
CSCI 4000. Senior Assessment (0) (F,S)
CSCI
4200. Software Engineering I (3) (WI) (F,S) (P: CSCI 3310 or 3510; CSCI major)
CSCI
4630. Operating Systems I (3) (S,SS) (F,S) (P:
CSCI 3526 3300;
CSCI major)
Choose
6 s.h. CSCI courses above 1999 2999,excluding
CSCI 2600, 3584, and 5774
4.
Cognates
........................................................................................................................
6-7 s.h.
CSCI/MATH
2427. Discrete Mathematical Structures (3) (F,S,SS) (P: MATH 1065 or 1066)
MATH
2119. Elements of Calculus (3) (F,S,SS) (GE:MA) (P: MATH 1065 with a minimum
grade
of C) or MATH 2122. Calculus for the Life
Science II (3) (F,S,SS) (P: MATH 2121) or MATH
2171. Calculus I (4) (F,S,SS) (GE:MA)
(P: minimum grade of C in any of MATH 1083,
1085, or 2122)
5.
Minor and electives to complete requirements for graduation.
BS in Computer Science
Credit
toward a computer science major will not be given for any CSCI course with a
grade less than C being used to satisfy the requirements specified in the
common core, concentration area, and CSCI electives. Minimum degree requirement
is 126 s.h. of
credit as follows:
1.
General education (See Section 4, General Education Requirements for all
Baccalaureate Degree Programs), including those listed below
................................... 42 s.h.
COMM
2410. Public Speaking (3) (F,S,SS) (GE:FA) or COMM 2420. Business and
Professional
Communication (3) (F,S,SS) (GE:FA)
PHIL
2275. Professional Ethics (3) (WI*) (F,S,SS) (GE:HU)
2.
Common core
...............................................................................................................................
29 s.h.
CSCI
2300. Computer Science Survey (3) (F,S,SS)
CSCI
2310, 2311. Algorithmic Problem Solving and Programming Laboratory (4,0)
(F,S,SS) (P:
MATH 1065; C for 2310: CSCI 2311; C for
2311: CSCI 2310)
CSCI
3300. Introduction to Algorithms and Data Structures (4) (F,S,SS) (P: CSCI
2300, 2310
P/ C: CSCI 2427)
CSCI
3310. Advanced Data Structures and Data Abstraction (3) (F,S,SS) (P: CSCI 2427, 3300)
CSCI
3526. Switching Theory and Computer Organization (3) (F,S,SS) (P: CSCI 2310 or
2610;
CSCI 2427)
CSCI
3650. Analysis of Algorithms (3) (S,SS) (P: CSCI 3310 or 3510; CSCI 2427) or
CSCI 4602.
Theory of Automata and Linguistics (3) (F)
(P: CSCI 2427; CSCI Major)
CSCI
3675. Organization of Programming Language (3) (F,SS) (P: CSCI 3310 or 3510)
CSCI 4000. Senior Assessment (0) (F,S)
CSCI
4200. Software Engineering I (3) (WI) (F,S) (P: CSCI 3310 or 3510; CSCI major)
CSCI
4630. Operating Systems I (3) (S,SS) (F,S) (P: CSCI 3526 3300; CSCI major)
3.
Supporting area of concentration (Choose one from a. through d.)* ................................
12 s.h.
a.
Choose an additional 12 s.h. in MATH acceptable for a mathematics major
b.
Choose an additional 12 s.h. in ACCT and/or DSCI
c.
Choose an additional 12 s.h. in ICTN
d.
12 s.h. from ENGL 3750; PSYC 3226; PHIL 1180, 1500, 3580, 3255, 4283
4.
Cognates
....................................................................................................................
18-19 s.h.
CSCI/MATH
2427. Discrete Mathematical Structure (3) (F,S) (P: MATH 1065 or 1066)
CSCI/MATH
3584. Computational Linear Algebra (3) (F,S,SS) (P: Calculus course)
ENGL
3880. Writing for Business and Industry (3) (WI) (F,S,SS) (P: ENGL 1200) or
ITEC 3290.
Technical Writing (3) (WI) (F,S,SS) (P: ENGL
1200)
MATH
2119. Elements of Calculus (3) (F,S,SS) (GE:MA) (P: MATH 1065 with a minimum
grade
of C) or MATH 2122. Calculus for the Life
Sciences II (3) (F,S,SS) (P: MATH 2121) or MATH
2171. Calculus I (4) (F,S,SS) (GE:MA) (P:
minimum grade of C in any of MATH 1083, 1085, or
2122)
MATH
2228. Elementary Statistical Methods I (3) (F,S,SS) (P: MATH 1065 or
equivalent) or
MATH 2283. Statistics for Business (3)
(F,S,SS) (P: MATH 1065 or 1066 or equivalent) or
MATH 3307. Mathematical Statistics I (3)
(F,S) (P: MATH 2172)
MATH
3229. Elementary Statistical Methods II (3) (F,S) (P: MATH 2228 or equivalent)
or MATH
3308. Mathematical Statistics II (3) (F) (P:
MATH 3307) or CSCI 5774. Programming for
Research (3) (F,S) (P: General course in
statistics or consent of instructor)
5.
CSCI electives above 1999 2999 (excluding CSCI 2600,
5774) ................................ 12 s.h.
6.
Electives to complete requirements for graduation.
*Requirements
for 4 3. and 7 6.,
above, may be met by satisfying the requirements for a minor.
Computer Science Minor
Minimum
requirement for computer science minor is 26 s.h. of
credit as follows:
1.
Core
.................................................................................................................................
14 s.h.
CSCI
2300. Computer Science Survey (3) (F,S,SS)
CSCI
2310, 2311. Algorithmic Problem Solving and Programming Laboratory (4,0)
(F,S,SS) (P:
MATH 1065; C for 2310: CSCI 2311; C for 2311:
CSCI 2310)
CSCI
3300. Introduction to Algorithms and Data Structures (4) (F,S,SS) (P: CSCI
2300, 2310;
C:
CSCI 2427)
CSCI
2427. Discrete Mathematical Structures (3) (F,S,SS) (P: MATH 1065 or 1066)
2.
CSCI electives above 1999 2999, excluding 3584
........................................................ 12 s.h.
INSERT
ON Page 344 - 346
CSCI:
COMPUTER SCIENCE
1001.
Introduction to Computer Science for Non-majors (3) (F,S,SS) May
not count towards a BA or BS degree in computer science, or towards general
education credit. Elementary treatment of some basic ideas in computer science,
such as how computers store and process data, binary and hexadecimal numbers,
arithmetic/logic instructions, social issues, data structures, web pages, and
the Internet. Targeted towards novice computer users.
1200.
Introduction to Visual Programming (3) (F,S) May not
count toward CSCI major or minor. P: MATH 1065. Introduces programming using a
visual design tool such as Visual Basic.
2300.
Computer Science Survey (3) (F,S,SS) Elementary
architecture, operating systems, file systems, network, algorithmic, and
software development concepts.
2310,
2311. Algorithmic Problem Solving and Programming Laboratory (4,0) (F,S,SS) P:
MATH 1065; C for 2310: CSCI 2311; C for 2311: CSCI 2310. Design of algorithms
and their implementation as programs in high-level language such as Java.
2427.
Discrete Mathematical Structures (3) (F,S,SS) Same as MATH 2427 May
not count toward MATH major or minor. May receive credit for only one of CSCI
2427; MATE or MATH 2775, 3237, or MATH 2427. P: MATH 1065 or 1066. Study of
discrete mathematical structures. Special emphasis on structures most important
in computer science. Practical applications of subject emphasized.
2510. Introduction to Computer Science I (3) (F,S,SS) P: MATH 1065 or 1066. Expression of computation or other processes
as algorithms. Basic features of computer architecture and computer execution
of stored programs. Concepts of computer science.
2600.
Introduction to Digital Computation (3) (S) May not
count toward CSCI major or minor. P: MATH 1065 or 1066. Emphasis on algorithmic
approach to problem solving. Algorithms programmed and run on computer by all
students.
2610, 2611. Introduction to Computer Science II and Laboratory (4,0)
(F,S,SS) P: CSCI 2510; C for 2610: CSCI
2611; C for 2611: CSCI 2610. Expression of computation and other processes as
algorithms and implementation of algorithms as computer programs. Students
write algorithms for specific problems in contemporary high-level language,
debug, and run programs on computer.
2618.
COBOL (3) (F) P: CSCI 2310
or 2610. Basic and advanced elements of COBOL.
3300.
Introduction to Algorithms and Data Structures (4) (F,S,SS) P:
CSCI 2300, 2310; C: CSCI 2427, 2427.
Advanced data representations such as lists and trees, including associated
algorithms and use of both static and dynamic memory.
3310.
Advanced Data Structures and Data Abstraction (3) (F,S,SS) P:
CSCI 2427, 3300. Data abstractions such
as stacks, queues, graphs, tables, and sets, and implementations in
object-oriented style, including principles of class design.
3510. Data Structures (3) (F,S,SS) P: CSCI 2610; P/C: MATH 2427. Mathematical structures generally
useful in understanding and applying computer concepts.
3526.
Switching Theory and Computer Organization (3) (F,SS) P:
CSCI 2310 or 2610; CSCI 2427. Theory and practice of computer and computer
component design. Gates and gate-level design.
3573.
Introduction to Numerical Analysis (3) (S) Same as MATH 3573 P:
CSCI 2310 or 2610 or consent of instructor; MATH 2119 or 2172 or equivalent.
Algorithms suitable for digital computation in areas of linear algebra, linear
programming, slope finding, area finding, and nonlinear equation solution.
3584.
Computational Linear Algebra (3) (F,S,SS) Same as MATH 3584 May
not count toward MATH major or minor. P: Calculus course. Introduces vectors,
matrices, and determinants. Special emphasis on application of linear algebra
to solution of practical problems.
3601.
Computer Organization and Programming (3) (F,S) P:
CSCI 3300, 3510 or 3526. Assembly language used to illustrate general machine architecture
that executes assembly language command structure.
3650.
Analysis of Algorithms (3) (S,SS) P: CSCI 3310 or
3510; CSCI 2427. Decision trees, mathematical induction, and adversary
arguments used to analyze correctness, complexity, and optimality of
algorithms. Emphasis on searching and sorting algorithms.
3675.
Organization of Programming Language (3) (F,SS) P:
CSCI 3310 or 3510. Applied course in programming language constructs. Emphasis
on run-time behavior of programs. Provides appropriate background for
advanced-level courses involving formal and theoretical aspects of programming
languages and compilation process.
3700.
Database Management Systems (3) (F) P: CSCI 3310 or
3510. Theory and techniques of relational, hierarchical, and network database
management systems.
3800.
Introduction to Computer Graphics (3) (F) P: CSCI
3310 or 3510; MATH 3256 or 3584. Computer graphics systems, hardware,
interactive methods; line and curve drawing; two- and three-dimensional
transformations; and perspective transformation.
4000.
Senior Assessment (0) (F,S) To be taken by
CSCI seniors in final year semester. Assessment of departmental programs.
4200.
Software Engineering I (3) (WI) (F,S) P: CSCI major
and CSCI 3310 or 3510. Formal approach to state-of -the-art techniques in
software design and development and application of the techniques.
4230.
Software Engineering II (3) (F,S) P: CSCI 4200 or
consent of the instructor. Conceptual and practical knowledge in relation to
large-scale software development using established software engineering
principles. Requires completion of major project using tools and methodologies
provided.
4510.
Object-Oriented Computing and Graphical User Interfaces (3) (F,S) P:
CSCI 3310 or 3510. Object-oriented program design and development and data
abstraction. Object-oriented programming languages. Applications to graphical
user interfaces and event-driven computing.
4520.
Introduction to Computer Architecture (3) (S) P:
CSCI major; CSCI 3526. Organization of basic elements of computer system,
including processor, memory, control unit, and I/O units.
4530.
Computer Networks and the Internet (3) (S) P: CSCI
3300 or 3510 or consent of instructor. Theory and case studies of modern
networking protocols and telecommunication methods. Local area and long-haul
networks.
4602.
Theory of Automata and Linguistics (3) (F) P: CSCI
major; CSCI 2427. Basic concepts of automata theory and mathematical
linguistics and their close interrelationship.
4627.
Procedural Languages and Compilers (3) (S) P: CSCI
major; CSCI 3526, 3675. State of the art techniques for compiling procedural
languages.
4630.
Operating Systems I (3) (F,S,SS) P:
CSCI major and CSCI 3526 3300. Job control and operating systems. System
organization, resource and storage allocation, interrupt handling, addressing
techniques, file structures, and batch/time sharing systems.
4710.
Introduction to Developing e-Business Systems (3) (WI)
(F,S) P: CSCI 3310 or 3510 or consent of
instructor. Introduces use of concepts, technologies, and building blocks from
computer science, practical software engineering, and business development in
building e-Commerce systems. Describes systematic life-cycle approach to
developing successful
e-Commerce
systems and presents knowledge essential to wide range of organization and
software developers. Requires completion of major term projects using
state-of-the art tools and methodologies.
4905.
Selected Topics in Computer Science (3) (WI)
May be repeated for maximum of 6 s.h. with change of topic. P:
CSCI major and CSCI 3310 or 3510. Consideration of new or advanced topics in
computer science.
5002.
Logic for Mathematics and Computer Science (3) Same as MATH 5002 P:
CSCI 3310 or 3510 or MATE 3223 or 2775 or MATH 2427 or 2775 or 3223 or 3256 or
PHIL 3580 or equivalent. Methods of mathematical logic important in mathematics
and computer science applications.
5210.
Operating Systems II (3) P: CSCI 4630 or consent of
instructor. Theory and practice of concurrent processes in computer operating
systems. Process scheduling. Memory and auxiliary storage management.
5220.
Program Translation (3) P: CSCI 4627 or consent of
instructor. Formal language
specification
for programming languages. Advanced parsing techniques. Code generation and
optimization.
5501,
5502, 5503. Independent Study (1,2,3) Minimum of 3-6
hours per week depending on the nature of the work assigned. P: CSCI 3601 3310
or equivalent or consent of instructor. Advanced computer science students
study topics that supplement regular curriculum.
5774.
Programming for Research (3) Same as MATH 5774 For
graduate student who wishes to use computer science to meet required research
skills in his or her dept. May not count toward MATH major or minor. P: General
statistics course or consent of instructor. Emphasis on minimum-level
programming skill and use of statistical packages.
5800.
Artificial Intelligence (3) P: CSCI 3310 or
3510 or consent of instructor. Fundamental problems and techniques of
artificial intelligence. Heuristic search. Concepts of expert systems.
CSCI Banked Courses
1610. Elementary Pascal (3)
2510. Introduction to Computer
Science I (3)
2610, 2611. Introduction to
Computer Science II and Laboratory (4,0)
2901. Programming in ADA (1) 3574.
Numerical Analysis II (3)
2902. Programming in C (1) 4600.
Systems Analysis (3)
2903. Programming in FORTRAN (1) 4604. Systems
Simulation (3)
3510. Data Structures (3) 5726.
Scientific Programming (1)
Information and Computer Technology
INSERT
ON Page 289
3.
Upper Division Core
ICTN 4020 Senior Capstone Design Project I (1) (WI) (F) (P: Senior standing, IDIS 3790, ITEC
3290, 3300 and ICTN major)
ICTN 4022 Senior Capstone Design Project II (2) (WI) (S) (P: ICTN 4020)
INSERT
ON Page 404
4020.
Senior Capstone Design Project I (1) (WI)
(F) 1 lecture hour per week. P: Senior standing, IDIS 3790, ITEC 3290, 3300 and ICTN major. Open-ended
design project, exposing students to practice of information and computer
technology. Develop proposal for ICTN
4022 project.
4022.
Senior Capstone Design Project II (2) (WI)
(S) 2 lecture hours per week. P: ICTN 4020. Open-ended design project, exposing
students to practice of information and computer technology. Perform and complete project proposed in ICTN
4020.