NUCLEAR ENGINEERING SCIENCES


MUT 2126, 2127 Theory of Music 3,4.
 Credits: 4 each course; Coreq: MVK 2121.
Modulation, secondary dominants, diminished sev-
enths, neopolitan and augmented sixth, chords of the
ninth, eleventh, thirteenth, sight singing and dictation.
MUT 3321, 3322 Instrumentation and Arranging 1, 2.
F,S.
 Credits: 3 each course; Prereq: MUT 2127 or equivalent.
Scoring for the instruments of the orchestra and band,
singly and in various combinations.
MUT 3611 Form and Analysis 1. F.
 Credits: 3;Prereq: MUT 2127.
Analysis of melodic structures and homophonic forms
of the common practice period including binary,
ternary, rondo, and sonata-allegro forms.
MUT 3612 Form and Analysis 2. S.
 Credits: 3; Prereq: MUT 2127 and MUT 3611.
Analysis of contrapuntal forms including canon,
motet, and fugue; study of approaches to musical
form in the twentieth century.
MUT 4411 Modal Counterpoint. F.
 Credits: 3; Prereq: MUT 2127.
Free and strict counterpoint in the sixteenth century
modal style through listening, reading, playing,
singing, and writing.
MUT 4421 Tonal Counterpoint. S.
 Credits: 3; Prereq: MUT 2127.
Counterpoint in the 18th-century style through listen-
ing, reading, playing, singing, and writing.
MUT 4601 Score Reading. F, S.
 Credits: 2; Prereq: Completion of Secondary Piano
MVK 2121 or equivalent, or permission of instructor.
Score-reading at the keyboard. Exercises in realization
of music in two or more staves and clefs, and involv-
ing instrumental transpositions.
MUT 4615 Analysis of Early Music. F.
 Credits: 3; Prereq: MUT 3611,.3612 Form and
Analysis or equivalent, or permission of instructor.
Analysis of music before 1600. Chant, Organum, Ars
Nova, and Renaissance.
MUT 4641 Jazz Improvisation. F, S.
 Credits: 2; Prereq: Permission of instructor. May be
 repeated for credit.

 GRADUATE COURSES
 Please refer to the Graduate Catalog for graduate
 course listings.





 INSTRUCTIONAL STAFF 1992-93
 Tulenko, J.S., Chair; Anghaie, S.; Dalton, G.R., Diaz,
 N.J.; Dugan, E.T.; Ellis, W.H.; Hintenlang, D.E.,
 Adviser; Jacobs, A.M.; Roessler, G.S.; Schoessow, G.J.,
 Emeritus; Veretson, W.G.

 Engineering Nuclear
 ENU 3002 Survey of Nuclear Technology in Modem
 Life. F, S.
 Credits: 2, 2-1 hr. lee; Prereq: Upper division standing
 or consent of instructor.
 The impact of nuclear technology on our society; fun-
 damentals of nuclear fission and fusion processes with
 applications; medical and biomedical applications of
 nuclear technology. Intended for the nonengineering
 student.
 ENU 3012 History of Nuclear Energy. F, SS.
 Credits: 3; 3-1 hr. lee.
 The evolution of nuclear weapons in World War II,
 change from military to civilian control, and matura-
 tion of nuclear power.

 tt Grading is on S-U basis only.


ENU 4001 Introduction to Nuclear Engineering
Analysis 1. F.
 Credits: 3; 3-1 hr. lee.
Continuous and discrete variable solution methods
for the statistical, algebraic, differential and integral
equations important in nuclear engineering. Problems
involving neutron, photon, fluid and temperature dis-
tributions in configuration, time and velocity are
mathematically modeled, solved and interpreted.
ENU 4003 Introduction to Nuclear Engineering
Analysis 2. S.
 Credits: 3; 3-1 hour lecture; Prereq: ENU 4001.
Second part of the sequence ENU 4001, 4003.
ENU 4101 Principles of Nuclear Reactors. F, SS.
 Credits: 3; 3-1 hr. lec; Prereq: Senior Standing.
Basic introduction to nuclear reactor theory including
interaction of radiation with matter. Introduction to
nuclear power plant technology including description
of components, instrumentation, systems and opera-
tions for power generation. Course intended for engi-
neering students not majoring in nuclear engineering.
ENU 4103 Introduction to Nuclear Engineering 1. S.
 Credits: 3; 3-1 hr. lee.; Prereq: ENU 4001, ENU 4605,
and ENU 4934.
Introduction to nuclear reactor concepts, fuels and
materials. Elementary study of neutron reactions, neu-
tron diffusion, and multiplication factors for simple
nuclear reactors; static analysis of nuclear systems.
ENU 4104 Introduction to Nuclear Engineering 2. F.
 Credits: 3; 3-1 hr. lec.; Prereq: ENU 4003.
Continuation of ENU 4103. Elementary study of time
dependent behavior of nuclear systems including feed-
back, transients, reactor control and power generation.
ENU 4134 Thermodynamics, Heat and Mass Transfer
in Nuclear Systems. F.
 Credits: 4; 4-1-hr. lee; Prereq: EML 3100 and ENU
4103; Coreq: ENU 4144
Thermodynamic aspect of nuclear power, reactor heat
generation and removal, heat transfer and fluid flow in
nuclear systems with emphasis on light water reactors.
ENU 4144 Nuclear Power Reactor Systems 1. F.
 Credits: 3; 3-1 hr. lee; Prereq: EML 3100; Coreq:
 ENU 4104.
 Basis for light water reactor (LWR) design; the NRC
 design criteria for LWRs. Study of the major systems,
 components and performance characteristics of LWRs
 including fuels, primary and secondary coolant sys-
 tems, emergency and auxiliary systems.
 ENU 4145 Nuclear Reactor Safety and Risk Analysis.
 S.
 Credits: 3; 3-1 hr. lee; Prereq: ENU 4144 and ENU
 4134.
 Advanced study of reactor safety systems including
 probablistic risk assessment.
 ENU 4185 Nuclear Reactor Fuel Management. SS.
 Credits: 2; 2-1 hr. lee; Prereq: ENU 4104.
 Nuclear fuel management from enrichment through
 waste management and economics.
 ENU 4191 Elements of Nuclear Engineering Design.
 F,S.
 Credits: 2; 2-1 hr. lec.
 Concepts of nuclear engineering systems design
 including interactions of engineering parameters and
 the importance of trade-off and optimization among
 the design parameters and competing design criteria.
 ENU 4192 Nuclear Reactor Power Plant Design 1. S.
 Credits: 4; 4-1 hr. lee; Prereq: ENU 4134 and ENU
 4144.
 Introduction to design methodology with application
 to the solution of a unified set of design problems for
 major components and systems of nuclear power
 plants.


ENU 4194 Control of Nuclear Reactors and Power
Plants. S.
 Credits: 3; 3-1 hr. lee; Prereq: ENU 4104 and ENU
4144.
Analysis of the control and dynamic characteristics of
nuclear reactors, including the effects of feedback.
Analysis of the control and dynamic characteristics of
the integrated nuclear power plant.
ENU 4211 Computer Methods in Nuclear
Engineering and Science. F, S,
 Credits: 3; 2-1 hr. lec; and 2-1hr. labs; Prereq: ENU
4103 and COP 3312 or equivalent.
Course to develop proficiency in using computational
tools commonly applied to solve problems in Nuclear
Engineering and Nuclear Science.
ENU 4405 Nuclear Processing, Separation and
Storage. S, SS.
 Credits: 3; 3-1 hr. lec; Prereq: ENU4103.
Chemical processing of fertile and fissile materials
and irradiated fuels, changes in composition and reac-
tivity during fuel irradiation; nuclear reactors and the
chemical plants associated with them, waste disposal.
ENU 4505L Nuclear Engineering Laboratory 1. S.
 Credits: 2; 1-1 hr. lee; and 1-4 hr. lab; Prereq: ENU
4104 and ENU 4612.
A study of the experimental procedures used in reac-
tor operation, personnel monitoring, radiation detec-
tion devices and the statistics of nuclear counting sys-
tems.
ENU 4605 Interaction of Radiation with Matter. F.
 Credits: 3; 3-1 hr. lee; Coreq: PHY 3042.
 A study of the processes by which radiation interacts
 with matter with application to nuclear reactors.
 ENU 4612 Nuclear Instrumentation Systems. F.
 Credits: 3; 3-1 hr. lee; Prereq: ENU 4605; Coreq:
 ENU 4104, ENU 4612L, EEL 3111, or EEL 3003 and EEL
 3368.
 Basic operational principles of radiation detection and
 nuclear instrumentation systems, counting circuitry
 and systems for radiation detection and measurement
 in radiation protection, radiological dosimetry, nuclear
 medical measurements, radionuclicide surveillance and
 spectrometry and nuclear reactor safety and control.
 ENU 4612L Nuclear Instrumentation Systems Lab. F.
 Credits: 1; 1-3 hr. lab; Coreq: ENU 4612.
 Laboratory in nuclear radiation detection and instru-
 mentation systems associated with ENU 4612.
 ENU 4630 Fundamental Aspects of Radiation
 Shielding. SS.
 Credits: 2; 2-1 hr. lee; Prereq: ENU 4605, ENU 4104
 and ENU 4144.
 Basic principles of radiation shielding. Study of radia-
 tion sources and shielding for the reactor core and for
 nuclear power plant systems and components.
 ENU 4905 Special Problems in Nuclear Engineering
 Sciences. F, S, SS.
 Credits: 1 to 6; Prereq: Recommendation of
 Department Chairperson. May be repeated up to maximum
 of 8 credits.
 Individually selected problems or projects in the stu-
 dents' major field of engineering study.
 ENU 4930 Special Topics in Nuclear Engineering. F,
 S,SS.
 Credits: I to 4; Prereq: Consent of instructor. May be
 repeated with change of content up to a maximum of 8
 credits.
 Special courses covering selected topics in nuclear
 engineering.