Alden Wright, Chairman
The growing utility of computers in research and education, as
well as the increased impact of computers on our modern society,
strongly implies that a knowledge of computers and their capabilities
should be a part of the basic education of all students. The courses
listed below are designed to provide the student with this knowledge
and to prepare the student for a career in a field in which there
is a growing need for trained personnel. The objective of the
undergraduate curriculum in computer science is to teach theory
and to develop professionally competent, broadly educated computer
scientists who wish to pursue professional careers or graduate
studies.
The B.S. program is accredited by the Computing Accreditation
Commission (CAC) of the Accreditation Board for Engineering and
Technology, Inc. (ABET), a specialized accrediting body; its curriculum,
therefore, is similar to those of other recognized computer science
programs. For more information access www homepage: http://www.cs.umt.edu
or email the chairman at wright@cs.umt.edu.
High School Preparation: In addition to general
University admission requirements, pre college preparation should
include as many computer science courses as possible, and four
years of high school mathematics, to include algebra, trigonometry
and pre-calculus. Also recommended are physics and chemistry.
Admission Requirements
Admission to computer science courses varies according to course
level and other departmental standards. However, students must
have completed all prerequisite courses with a grade of at least
a "C".
Lower Division Courses
Most 100 and 200 level courses (notable exceptions are CS 131,
132, 221, 231 and 232) are open on a first-come, first-served
basis to all students who have the prerequisites. First preference
for enrollment in CS 131, 132, 221, 231, and 232 is given to students
who have declared computer science as their major or minor. Students
simply taking computer science courses to satisfy a general education
symbolic system sequence should normally take CS 101, 201, 203,
204, 205 and/or 207 instead of CS 131 and/or 132 as these latter
two courses are normally reserved for students contemplating or
intending to major or minor in computer science.
Upper Division Courses
Admission to 300 level or above courses requires successful
completion of the prerequisites.
Major Minor Status
Completed change of major forms along with college transcripts
must be turned into the department when declaring computer science
as a major or minor.
Special Degree Requirements
Refer to graduation requirements listed previously in the catalog.
See index.
Bachelor of Science degree with a major in Computer Science
A B.S. degree in computer science requires completion of the
following requirements with at least a "C" in each course:
Computer Science. CS 131 132, CS 221, CS 231
232, CS 331, CS 332, CS 335, CS 344, CS 346, CS 365, CS 415E,
CS 441 and CS 488. Additionally, the student must compete the
requirements of one of the options listed below.
Mathematics. MATH 152 153, 221, 225, and 341.
Writing/Communication. Students must take FOR
220. Students must also take COMM 111A or COMM 242.
Science. Students must take PHYS 221N and 222N.
Students also must take two additional courses selected from the
following list (two numbers separated by a / means that the second
number is a lab for the first and the two together only count
as one course for this requirement):
ASTR 131N/134N, ASTR 132N/135N
BIOL 101N/102N, BIOL 103N/104N, BIOL 105N/107N
CHEM 161N, CHEM 162N
EVST 101N
FOR 201
GEOL 100N/101N, GEOL 202, GEOL 226
PHYS 341, PHYS 441
PSYC 100S, 260S, PSYC 265S, PSYC 270N
NOTE: 100 level CS courses other than CS 131 132 and 200 level
CS courses other than CS 221 and CS 231 232 do not count toward
the degree or option requirements. However, they do count in the
60 credit limit in the major.
Upper-division Writing Expectation. The Upper-division Writing
Expectation for computer science majors is CS415E.
The following options are available:
Scientific Applications Option
A student choosing this option must complete CS 471, CS 486,
and three additional credits of CS electives selected from courses
numbered 300 or above.
In addition, the student must complete MATH 251 and 17 credits
in a single physical/biological/social science discipline of his
or her choice. These courses must be selected in consultation
with a CS advisor. Three of the above 17 credits must be independent
study credits in either the selected scientific discipline or
computer science, arranged in joint consultation with a CS faculty
and a faculty member from the scientific discipline.
Software Systems Option
A student choosing this option must complete CS 442 and six
credits of CS electives selected from courses numbered 300 and
above.
Bachelor of Science degree with a combined major in Computer Science-Mathematical
Sciences
The purpose for the combined program is to provide a thorough
background in both allied disciplines and to inculcate a deeper
understanding of their goals and methods. A student must complete
60 credits in the two disciplines: 30 of these credits in computer
science courses and 30 of these credits in mathematical sciences
courses. A minimum grade of "C" is required in all courses
which follow:
The computer science requirements are: 131-132, 231-232, 331,
332, 335, and nine credits of CS electives selected from courses
numbered 300 and above.
The mathematical sciences requirements are: 152-153, 221, 251,
305 (or 225), and twelve credits of MATH electives selected from
courses numbered above 305.
The combined nine additional credits of computer science electives
and twelve additional credits of mathematical sciences electives
must include at least three 3- or 4-credit courses numbered 400
or above, with at least one chosen from each department (not including
MATH 406, 444, and 445).
Other requirements are: PHYS 221N-222N, FOR 220, and either COMM
111A or COMM 242.
Each student plans a program in consultation with a computer science
and a mathematical sciences advisor. Students planning to attend
graduate school in computer science or the mathematical sciences
should consult with their respective advisors.
Suggested Curricula:
Applied Math-Scientific Programming: MATH 311, 412, 414, and one
course chosen from MATH 341, 351, 451, 452, 471. Three courses
chosen from CS 344, 455, 471 and 486.
Combinatorics and Optimization-Artificial Intelligence: MATH 381,
382; two courses chosen from MATH 325, 341, 414, 485; and CS 344,
455 and 457.
Statistics-Machine Learning: MATH 341, 441, and two courses chosen
from MATH 325, 382, 442, 485. Three courses chosen from CS 365,
455, 457 and 486.
Algebra-Analysis: MATH 351, 421, and two courses chosen from MATH
326, 422, 451, 452; CS 344, 441, and one other course.
Teacher Preparation in Computer Science
Minor Teaching Field of Computer Science: For an endorsement
in the teaching field of Computer Science, a student must complete
(with at least a "C" in each course) CS 101, 131 132,
171, 172, 231, 331, 401; MATH 152 153, 225 and 241. Students also
must gain admission to Teacher Education and Student Teaching
and meet the requirements for certification as a secondary teacher
(see School of Education section of this catalog.)
Suggested Course of Study
First Year |
Autumn |
Spring |
CS 131 132 Fundamentals of Computer Science I, II |
3 |
3 |
COMM 111A Introduction to Public Speaking |
3 |
- |
ENEX 101 Composition |
- |
3 |
MATH 152 153 Calculus I, II |
4 |
4 |
Electives and General Education |
5 |
6 |
Total |
15 |
16 |
Second Year |
|
|
CS 221 Programming in C & C++ |
2 |
- |
CS 231 232 Computer Architecture and Programming I, II
|
3 |
3 |
CS 331 Data Structures |
- |
3 |
CS 332 Algorithms |
3 |
- |
MATH 225 Discrete Math I |
3 |
- |
PHYS 221N 222N General Physics |
5 |
5 |
Electives and General Education |
- |
3 |
Total |
16 |
14 |
Third Year** |
|
|
CS 335 Programming Languages |
- |
3 |
CS 344 Operating Systems |
3 |
- |
CS 346 Software Science |
- |
3 |
CS 365 Database Design and DBMS |
3 |
- |
FOR 220 Technical Writing |
- |
2 |
MATH 221 Linear Algebra |
4 |
- |
MATH 341 Probability and Statistics |
- |
3 |
Science Electives |
4 |
4 |
Total |
14 |
15 |
Fourth Year** |
|
|
CS 415E Computers, Ethics, and Society |
- |
3 |
CS 441 Theory and Practice I |
3 |
- |
CS 488 Comp Comm and Networks |
- |
3 |
CS option courses and electives |
6 |
3 |
Electives and General Education |
|
|
Total |
15 |
15 |
**CS core courses at the 300 and 400 level may not always be
offered in the sequence shown but will be offered every year.
Requirements for a Minor
There are two minors offered by the Department of Computer Science:
the traditional minor in computer science emphasizes computer
programming and related skills, while the minor in computer applications
emphasizes use of applications such as programming languages,
word processors, spreadsheets, and data bases in the management
and manipulation of electronic information.
Computer Science: To earn a minor in computer
science the student must complete (with at least a "C"
in each course) 25 CS credits including: CS 131 132, CS 203 or
CS 204 or 207, CS 231 232, CS 331, and CS 335. The remaining credits
must be selected from courses at the 300 level or above. The student
must also complete MATH 152 153, and MATH 225.
Computer Applications: To earn a minor in computer
applications, a student must complete (with at least a "C"
grade in each course) 21 CS credits including: at least one and
no more than three of CS 101, CS 203, CS 204, CS 205, CS 207;
at least one and no more than three of CS 111, CS 171, CS 172,
and CS 181; with remaining courses selected from CS 131-132, CS
231-232, CS 486, other CS major courses, pre-approved CS 195,
CS 295, CS 395, or CS 495 special topics courses, or up to six
credits of pre-approved classes outside the department.
Courses
U = for undergraduate credit only, UG = for undergraduate or
graduate credit, G = for graduate credit. R after the credit indicates
the course may be repeated for credit to the maximum indicated
after the R.
Computer Science (CS)
Students taking CS classes with computer programming components
should expect additional computer lab time outside of class.
U 101 Introduction to Programming 3 cr. Offered
every term. Elementary programming techniques using the Visual
BASIC programming language. A wide range of primarily nonmathematical
programs will be written by the student and run on a computer.
(Two hours independent lab per week.) Credit not allowed for both
CS 101 and EET 225.
U 111 Computer Literacy 3 cr. Offered every term.
An introduction to computer terminology, organization and operation,
and the social impact of computers. Includes hands on exposure
to microcomputers and time sharing applications. (One hour scheduled
lab, plus one hour minimum independent lab per week.) Credit not
allowed for CS 111 and CRT 101.
U 131 Fundamentals of Computer Science I 3 cr. Offered
autumn and spring. Prereq., computer programming experience in
a language such as BASIC, Pascal, C, etc.; coreq., MATH 100 or
consent of instr. Fundamental computer science concepts using
the high level structured programming language, Java.
U 132 Fundamentals of Computer Science II 3 cr.
Offered spring and summer. Prereq., CS 131; coreq., MATH 121 or
consent of instr. Continuation of CS 131. Survey of computer science
topics including recursion, algorithms, basic data structures,
operating systems, artificial intelligence, graphics, user interfaces,
and social and ethical implications of computing.
U 171 Communicating Via Computers 3 cr. Offered
every term. Prereq., previous computer experience or consent of
instr. The use of the computer for information presentation and
communication; emphasis placed on the use of electronic resources
for the access, management, and presentation of information.
U 172 Introduction to Computer Modeling 3 cr.
Offered every term. Prereq., previous computer experience and
MATH 100 or equiv. score on math placement test, or consent of
instr. Problem solving with spreadsheets and databases using the
computer to analyze a set of data; presentation of results of
analysis. Credit not allowed for CRT 280 or 281 and this course.
U 181 Electronic Publishing on the World Wide Web 3 cr.
Offered every term. Prereq., CS 111 or consent of instr.
Introduction to browsers and the World Wide Web. Web site design
and construction facilitated by the use of several multimedia
programs. HTML and SGML explained in the use of web construction.
Copyright issues and other WWW services are discussed.
U 195 Special Topics Variable cr. (R 6) Offered
intermittently. Prereq., consent of instr. Experimental offerings
of visiting professors, experimental offerings of new courses,
or one time offerings of current topics.
U 196 Independent Study Variable cr.(R 6) Offered
intermittently. Prereq., consent of instr.
U 198 Cooperative Education Experience Variable cr. (R
12) Offered intermittently. Prereq., consent of department. Extended
classroom experience which provides practical application of classroom
learning during placements on and off campus. Prior approval must
be obtained from the faculty supervisor and the Center for Work-Based
Learning.
U 201 Special Programming Languages 3 cr. (R
open) Offered intermittently. Prereq., depends on specific language
offered. Computer programming using a high level programming language
which is not taught in a regular language specific course. Can
be repeated by choosing different languages.
U 203 FORTRAN Programming 3 cr. Offered intermittently.
Prereq., CS 101 or 131 or consent of instr. Computer programming
using the FORTRAN programming language. Several programs will
be written by the students.
U 204 C Programming 3 cr. Offered intermittently.
Prereq., CS 131 or 203 or consent of instr. Computer programming
using the C programming language. Several programs will be written
by the students. Credit not allowed for both CS 204 and CRT 270.
U 205 C++ Programming 3 cr. Offered intermittently.
Prereq., CS 204 or consent of instr. Computer programming using
the C++ programming language. Emphasis placed on object oriented
programming. (Two hours independent lab per week.)
U 207 Advanced Visual BASIC Programming 3 cr.
Offered intermittently. Prereq., CS 101 or consent of instr. Advanced
applications programming in Visual BASIC. Topics include advanced
objects and controls, web page development, and language trends.
U 221 Programming in C & C++ 2 cr. Offered
autumn. Prereq., CS 132. Extensive experience programming in C
and C++. In C emphasis is on lower-level programming. In C++ emphasis
is on using C++ class as an abstract data type and includes an
introduction to object-oriented programming concepts.
U 231 Computer Architecture and Assembly Language Programming
I 3 cr. Offered autumn. Prereq., CS 132 or consent of
instr. Functional view of computer system componentsBCPU, ALU,
memory, bus, cache, I/O module. Instruction cycle. Basics of instruction
set design: formats, addressing modes. Relationship between architecture
and operating systems. Basic combinational and sequential circuits.
Boolean algebra. Data representation. Introduction to pipelining
and assembly language. Interrupt handling.
U 232 Computer Architecture and Assembly Language Programming
II 3 cr. Offered spring. Prereq., CS 231 or consent of
instr. Continuation of CS 231. Implementation of selected computer
system components: ALU, control unit. Detailed design of an RISC-like
instruction set. Computer arithmetic. Interfacing processor and
peripherals. Advanced optimization techniques. Overview of multiprocessor
systems. Computer performance analysis. Assembly language programming.
Relationship between assembly language, instructions, higher-level
languages, compilers and linkers.
U 295 Special Topics Variable cr. (R 6) Offered
intermittently. Prereq., consent of instr. Experimental offerings
of visiting professors, experimental offerings of new courses,
or one time offerings of current topics.
U 296 Independent Study Variable cr. (R 6) Offered
intermittently. Prereq., consent of instr.
U 298 Cooperative Education Experience Variable cr.
(R 6) Offered intermittently. Prereq., consent of department.
Extended classroom experience which provides practical application
of classroom learning during placements on and off campus. Prior
approval must be obtained from the faculty supervisor and the
Center for Work-Based Learning.
U 331 Data Structures 3 cr. Offered autumn. Prereq.,
CS 132 or consent of instr. Abstract data types, sorting and searching,
linked lists, trees, hashing, file structures, and applications
of data structures.
U 332 Algorithms 3 cr. Offered spring. Prereq.,
CS 331 and MATH 225 or consent of instr. Algorithm design, analysis,
and correctness. Commonly used algorithms including searching
and sorting, string search, dynamic programming, branch and bound,
graph algorithms, and parallel algorithms. Introduction to NP
complete problems.
U 335 Theory of Programming Languages 3 cr. Offered
spring. Prereq., CS 331. Concepts and implementation of programming
languages, comparative study of programming languages, analyzing
their suitability for various applications.
U 344 Operating Systems 3 cr. Offered autumn.
Prereq., CS 221, CS 231and CS 331, or consent of instr. Process
and concurrent programming concepts. Job scheduling and resource
management. Introduction to virtual memory, extended machine and
file systems. Distributed and real time systems. Performance modeling
and analysis. Existing operating systems comparison and analysis.
U 346 Software Science 3 cr. Offered spring.
Prereq., CS 132. Software development lifecycle with particular
emphasis on requirements analysis and system design. CASE tools,
project management and cost estimation techniques.
U 365 Database Design and Database Management Systems
3 cr. Offered spring. Prereq., CS 331 and MATH 225, or
consent of instr. Models and representations of data, relations,
and files for fast retrieval by indexes, trees, and hashing. Introduction
to relational, hierarchical, network, distributed database systems,
and relevant query languages. Theory and techniques for design
and implementation of relational database systems.
U 394 Seminar Variable cr. (R 6) Offered intermittently.
Prereq., consent of instr. Guidance in special work.
U 395 Special Topics Variable cr. (R 6) Offered
intermittently. Prereq., junior standing. Experimental offerings
of visiting professors, experimental offerings of new courses,
or one time offerings of current topics.
U 396 Independent Study Variable cr. (R 6) Offered
intermittently. Prereq., consent of instr.
U 397 Research Variable cr. (R 6) Offered intermittently.
Prereq., consent of instr.
U 398 Cooperative Education Experience Variable cr.
(R 3) Offered intermittently. Prereq., consent of department.
Business or government internship. Prior approval must be obtained
from faculty supervisor and the Center for Work-Based Learning.
Only three credits applicable to computer science major or minor.
UG 401 Computer Science for Teachers 3 cr. Offered
intermittently. Prereq., junior standing or consent of instr.
History of computing; current trends including human/computer
interfaces, graphics, languages, networking, telecommunications;
future directions, including artificial intelligence and robotics;
career opportunities; impact of computers on society and the ethical
and moral obligations inherent in the use of computer hardware
and software; content studies and experiences relevant to the
computer sciences curricula grades 5 12; evaluation and selection
of hardware and software for school use. Credit not allowed toward
a degree in computer science.
U 415E Computers, Ethics, and Society 3 cr. Offered
spring. Prereq., computer science major with senior standing,
FOR 220, successful completion of the Upper-Division Writing Proficiency
Assessment, or consent of instr. Ethical problems that face computer
scientists. The codes of ethics of computing professional societies.
The social implications of computers, computing, and other digital
technologies.
U 435 Web Programming 3 cr. Offered spring. Prereq.,
CS 132 or consent of instr. Programming and software development
techniques for developing web-based applications. Scripting and
other programming languages that are used for web-based development.
UG 441 Theory and Practice I 3 cr. Offered autumn.
Prereq., CS 335, 344, 346, 365 and MATH 225, or consent of instr.
Automata, regular and context free languages, entity/relation
systems, with applications in requirements analysis, system design,
and language processing.
UG 442 Theory and Practice II 3 cr. Offered spring.
Prereq., CS 441. Systems design and implementation, with emphasis
and major project in language translation, operating systems,
or scientific applications.
UG 446 Computer Graphics 3 cr. Offered intermittently.
Prereq., CS 331 and MATH 221 or consent of instr. Hardware and
software elements of graphics systems. Basic computer graphics
algorithms for transformations, clipping, windowing and polygon
filing. Straight line, circle generation. Parametrical representations
of curves and surfaces. Three D viewing. Hidden line and surface
removal, shading and color models.
UG 455 Artificial Intelligence 3 cr. Offered
intermittently. Prereq., CS 335 or consent of instr. Using the
computer to solve problems that require intelligence. Representation
of knowledge, search techniques, symbolic programming in LISP,
expert systems.
U 457 Introduction to Machine Learning 3 cr. Offered
intermittently. Prereq., MATH 152 and programming experience or
consent of instr. Introduction to the framework of learning from
examples, various learning algorithms such as neutral networks,
and generic learning principles such as inductive bias, Occam's
Razor, and data mining. Credit not allowed for both CS 457 and
CS 557.
UG 462 Computerized Business Systems 3 cr. Offered
spring. Prereq., CS 441. Software development in support of electronic
commerce. Credit not allowed toward M.S. in computer science.
UG 471 Scientific Computing 3 cr. Offered autumn.
Prereq., MATH 153 and CS 132, or consent of instr. Survey of numerical
and symbolic methods for solving scientific problems. Introduction
to issues in high-performance and parallel computing. Interdisciplinary
emphasis.
UG 481 Architectures and Parallel Processing 3 cr. Offered
intermittently. Prereq., CS 232 and 344. Examination of processing
components and modern processor architecture. Systems with implicit
parallelism vs. parallel compiling vs. distributed computing.
Examination of operating system support features and programming
strategies.
UG 486 Data Visualization 3 cr. Offered intermittently.
Prereq., MATH 152; programming experience; and junior, senior,
or graduate status; or consent of instr. Visualization fundamentals
and applications using special visualization software; formulation
of 3 D empirical models; translation of 3 D models into graphical
displays; time sequences and pseudo animation; interactive versus
presentation techniques; special techniques for video, CD and
other media.
UG 488 Computer Networks 3 cr. Offered spring.
Prereq., CS 221, 232, and, 331. Concepts and practice of computer
networking, network protocol layers, switching, routing, flow,
and congestion control. Network programming.
UG 494 Undergraduate Seminar Variable cr. (R
6) Offered intermittently. Prereq., consent of instr. Guidance
in special work.
UG 495 Special Topics Variable cr. (R 6) Offered
intermittently. Prereq., consent of instr. Experimental offerings
of visiting professors, experimental offerings of new courses,
or one time offerings of current topics.
UG496 Independent Study Variable cr. (R 6) Offered
intermittently. Prereq., consent of instr.
UG 497 Research Variable cr. (R 6) Offered intermittently.
Prereq., consent of instr.
U 498 Cooperative Education Experience Variable cr.
(R 3) Offered Intermittently. Prereq., consent of department.
Business or government internship. Prior approval must be obtained
from the faculty supervisor and the Center for Work-Based Learning.
Only three credits of CS 398 and/or CS 498 applicable to computer
science major or minor.
U 499 Senior Thesis/Project 1-6 cr. (R-6) Offered
every term. Prereq., consent of thesis/project director and chair
of the Computer Science Department. Senior thesis for computer
science majors and/or Watkins scholars.
G 531 Design and Analysis of Algorithms 3 cr.
Offered intermittently. Prereq., CS 332. Algorithm design, analysis,
and correctness, with an emphasis on more advanced techniques
than covered in CS 332. Design of algorithms by induction. Recurrences
and their solutions. Parallel algorithms. Complexity theory: NP
hard and NP complete problems. Approximation algorithms for intractable
problems.
G 541 Software Science I: Requirements and Specifications
3 cr. Offered intermittently. Prereq., MATH 225; CS 331
and 335 or consent of instr. Requirements analysis, techniques
for representing requirements, specification development techniques,
and specification languages.
G 542 Software Science II: Design, Implementation and
Testing 3 cr. Offered intermittently. Prereq., CS 541.
Continuation of CS 541. The design process. Major design methods
such as composite/structured design, data structure driven design,
structured analysis, transfer of design to code, testing techniques,
validation, verification, certification, and security.
G 544 Advanced Operating Systems 3 cr. Offered
intermittently. Prereq., CS 344. Distributed operating systems,
memory organization, protection, scheduling, concurrent programming,
and parallel processing.
G 555 Applications in Artificial Intelligence 3 cr.
(R 6) Offered intermittently. Course can be repeated for credit
at the discretion of the instructor. Prereq., CS 455 or consent
of instr. One AI application area will be investigated, such as
natural language processing, expert systems, and knowledge acquisition.
LISP experience is required.
G 557 Machine Learning 3 cr. Offered intermittently.
Prereq., MATH 152 and programming experience or consent of instr.
Fundamentals of machine learning including neural networks, decision
trees, Bayesian learning, instance-based learning, and genetic
algorithms; inductive bias, Occam's razor, and learning theory;
data mining; software agents. Credit not allowed for CS 457 and
CS 557.
G 565 Database Systems 3 cr. Offered intermittently.
Prereq., CS 335, 344, and 365, or consent of instr. Relational
database theory, data models, user interfaces and query languages,
security, and concurrency.
G 580 Parallel Processing 3 cr. Offered intermittently.
Prereq., CS 331, 335, and 344. Parallel processing architectures
and programming languages.
G 594 Graduate Seminar Variable cr. (R 6) Offered
intermittently. Prereq., consent of instr. Seminar on current
research topics in computer science.
G 595 Special Topics Variable cr. (R 6) Offered
intermittently. Prereq., consent of instr. Experimental offerings
of visiting professors, experimental offerings of new courses,
or one time offering of current topics.
G 596 Independent Study Variable cr. (R 6) Offered
intermittently. Prereq., consent of instr.
G 597 Research Variable cr. (R 6) Offered intermittently.
Prereq., consent of instr.
G 599 Thesis/Project Variable cr. (R 6) Offered
every term. Prereq., consent of instr. Research for and preparation
of the master thesis or professional paper.
Faculty
Professors
Ray Ford, Ph.D., University of Pittsburgh, 1980
Alden H. Wright, Ph.D., University of Wisconsin, 1969 (Chairman)
Associate Professors
Jerry D. Esmay, M.S., University of Texas, El Paso, 1971
Joel E. Henry, Ph.D., Virginia Polytechnic Institute and State
University, 1993
Donald J. Morton, Jr., Ph.D., Louisiana State University, 1994
David W. Opitz, Ph.D., University of Wisconsin, Madison, 1995
Assistant Professors
Jesse V. Johnson, Ph.D., University of Maine, Orono, 2002
Yolanda J. Reimer, Ph.D., University of Oregon, 2002
Lecturer
Mike O'Conner, M.S., The University of Montana, 1996
Emeritus Professors
Robert P. Banaugh, Ph.D., University of California, 1962
Spencer L. Manlove, M.S., San Jose State University, 1959
James Ullrich, Ph.D., Southern Illinois University, 1969
Emeritus Associate Professor
Ronald E. Wilson, Ph.D., University of Chicago, 1975
Emeritus Assistant Professor
Gene F. Schiedermayer, M.S., Southern Methodist University, 1971