James O'Laverty.

An historical account of the Diocese of Down and Connor, ancient and modern (Volume 3) online

. (page 10 of 32)
Online LibraryJames O'LavertyAn historical account of the Diocese of Down and Connor, ancient and modern (Volume 3) → online text (page 10 of 32)
Font size
QR-code for this ebook


William Neal Reynolds Professor: B. S. Weir

Professors: T. M. Gerig, J. F. Gilliairu T. Johnson, K. H. Pollock, H. E. Schaffer, J. F. Belgrade,
R. E. Stinner, G. G. Wilkerson; Research Professors: S. Zeng; Professors Emeriti: J. W. Bishir,
H. J. Gold, R. J. Monroe, H. R. Van Der Vaart; Associate Professors: S. M. Blanchard, C. E.
Smith, J. L. Thome, H. T. Iran; Assistant Professors: T. C. Elston, N. M. Haddad, G. R. Hess, T.
B. Kepler, S. R. Lubkin, S. V. Muse

ASSOCIATE MEMBERS OF THE PROGRAM

Adjunct Professors: L. B. Crowder

Biomathematics is an interdisciplinary graduate program offering courses and research
opportunities in basic and applied mathematical biology. Degree programs are flexible to
accommodate students with backgrounds in the biological, mathematical or physical sciences. The
program also offers Ph.D. and master's-level minors. A brochure with additional information on
requirements, courses, faculty and current research can be obtained by writing the program
director.

Admission Requirements: Applicants should have either a bachelor's degree in biology with
evidence of aptitude and interest in mathematics, or a bachelor's in a mathematical science with
evidence of aptitude and interest in biology. Advanced (multivariate) calculus, linear algebra and
general biology are prerequisites for all BMA courses, and deficiencies in these should be
remedied during the first year of graduate study. The application must include a narrative
statement (1-2 pages) of the applicant's goals and reasons for interest in the BMA program.

Master's Degree Requirements: The M.S. and M.BMA. degrees require BMA 567 or 774, 771-
772; 2 upper-level biology courses; and three courses from the mathematical sciences or statistical
sciences. The M.S. degree requires a thesis, and the M.BMA. requires two additional courses and
a wTitten project.

Doctoral Degree Requirements: Course requirements consist of a "core" and a "concentration"



83



in some area of biology or mathematical sciences. Core requirements are: BMA 11\-112, 111 and
774; three upper-level biology courses from at least two areas (e.g., physiology and evolution);
and additional courses from the mathematical or statistical sciences. Concentration consists of
either a Ph.D. co-major in a biological or mathematical science or a coherent series of five
graduate courses approved by the student's committee, which must include a two-semester
sequence and at least one 700-level course.

Financial Assistance: TAs (generally in the Department of Statistics), RAs and internships are
available. Awards are based on GRE scores, transcripts and letters of recommendation. RAs
usually are held by continuing students. To receive full consideration for financial aid, the
completed application must be received by
March 1.

Other Relevant Information: All students are required to participate in the BMA Graduate
Seminar. Course requirements can be met by examination or by demonstrating that an equivalent
course was completed at another university.

GRADUATE COURSES

BMA 567 Modeling of Biological Systems.

BMA 573 Mathematical and Expenmental Modeling of Physical Processes I.

BMA 574 Mathematical and Experimental Modeling of Physical Processes II.

BMA 590 Special Topics.

BMA 610 Special Topics.

BMA 685 Master's Supervised Teaching.

BMA 690 Master's Examination.

BMA 693 Master's Supervised Research.

BMA 695 Master's Thesis Research.

BMA 696 Summer Thesis Research.

BMA 699 Master's Thesis Preparation.

BMA(OR,ST) 722 Decision Analytic Modeling.

BMA(MA,ST)771 Biomathematics I.

BMA(MA,ST) 772 Biomathematics 11.

BMA(MA,OR,ST) 773 Stochastic Modeling.

BMA(MA,OR) 774 Partial Differential Equation Modeling in Biology

BMA 790 Special Topics.

BMA 801 Seminar

BMA 815 Advanced Special Topics,

BMA 885 Doctoral Supervised Teaching.

BMA 890 Doctoral Preliminary Examination.

BMA 893 Doctoral Supervised Research.

BMA 895 Doctoral Dissertation Research.

BMA 896 Summer Dissertation Research.

BMA 899 Doctoral Dissertation Preparation.

Botany



Degrees Offered:



Program Title


Ph.D.


Ed.D.


M.S.


M.A.


Master
of


M.Ed.


Botany


Y




Y




Y





84



GRADUATE FACULTY

M. E. Daub, Head of the Department

Director of Graduate Programs:

N. S. Allen, Box 7612, 515.8382, [email protected]

University Research Professor: W. F. Thompson

Professors: N. S. Allen, U. Blum, W. F. Boss, R. S. Boston, W. S. Chilton, E. Davies, R. C. Fites,
J. F. Thomas, C. G. Van Dyke, T. R. Wentworth; Professors (USDA): H. E. Pattee; Professors
Emeriti: C. E. Anderson, J. W. Hardin, W. W. Heck, R. L. Mott, G. R. Noggle, E. D. Seneca, J. R.
Troyer; Associate Professors: R. L. Beckmann, J. M. Burkholder, J. E. Mickle, D. Robertson, J.
M. Stucky; Adjunct Associate Professors: C. S. Brown

ASSOCIATE MEMBERS OF THE PROGRAM

Professors: M. M. Goodman, T. W. Rufty, Jr., E. C. Sisler, E. A. Wheeler; Professors (USDA): S.
C. Huber; Associate Professors: H. V. Amerson, R. W. Whetten; Associate Professors (USDA):
K. O. Burkey; Assistant Professors: M. D. Purugganan

Course offerings or research facilities are available in the following areas: molecular biology, cell
biology and physiology of development; calcium, the cytoskeleton and signal transduction;
biochemistry of crown gall; physiological ecology of freshwater, marine and terrestrial plants;
community ecology; wetland plants; plant systematics; ultrastructure.

Admission Requirements: In special situations, students with an undergraduate GPA of less than
3.00 (on a 4.00 scale) may be admitted provisionally. If students lack certain prerequisites (e.g., in
mathematical, chemical, biological or other areas), additional courses may be required that do not
qualify for graduate credit. The best qualified students will be accepted when spaces are available
for new students.

Master's and Doctoral Degree Requirements: Courses from each of the two sub-disciplines
(cell and molecular biology and ecology biodiversity) are required. Students must earn a letter
grade of at least a "B" in these courses. Other requirements include: a graduate statistics course, a
thesis (for the Ph.D. and M.S., but not the Master of Botany), a comprehensive examination
(Ph.D.), oral thesis defense and a one-semester teaching responsibility per degree.

Other Relevant Information: Graduate research and teaching assistantships and tuition
remission information are available from the department. Graduate students are expected to attend
and participate in the seminar program every semester they are in residence. The department is
host to several training grants in plant cell and molecular biology founded by the Tri-Agency
(NSF,DOE,USDA) and NASA.

GRADUATE COURSES

BO(MB,PP) 501 Fungi and Their Interaction with Plants.

BO 544 Plant Geography.

BO 565 Plant Community Ecology.



85



BO(MB,PP) 575 Introduction to Mycology.

BO 601 Botany Seminar.

BO 620 Special Problems

BO 624 Topical Problems.

BO 685 Master's Supervised Teaching.

BO 690 Master's Examination.

BO 693 Master's Supervised Research.

BO 695 Master's Thesis Research.

BO 696 Summer Thesis Research.

BO 699 Master's Thesis Preparation.

BO 710 Plant Anatomy.

BO 712 Plant Morphogenesis.

BO(CS,HS) 718 Biological Control of Weeds.

BO 722 Advanced Morphology and Phylogeny of Seed Plants.

BO(GN,MB,PP) 730 Fungal Genetics and Physiology.

BO 731 Water Relations of Plants.

BO 733 Plant Growth and Development.

BO 745 Paleobotany.

BO 751 Advanced Plant Physiology I.

BO 752 Advanced Plant Physiology II.

BO 754 Laboratory in Advanced Plant Physiology II.

BO(ZO) 760 Principles of Ecology.

BO 761 Physiological Ecology.

BO 762 Applied Coastal Ecology.

BO(ZO) 770 Advanced Topics in Ecology I.

BO(MB) 774 Phycology.

BO(MB,PP) 775 The Fungi.

BO(MB,PP) 776 The Fungi - Lab.

BO 780 Plant Molecular Biology.

BO 801 Botany Seminar.

BO 820 Special Problems.

BO 824 Topical Problems.

BO 885 Doctoral Supervised Teaching.

BO 890 Doctoral Preliminary Examination.

BO 893 Doctoral Supervised Research.

BO 895 Doctoral Dissertation Research.

BO 896 Summer Dissertation Research.

BO 899 Doctoral Dissertation Preparation.

Chemical Engineering
Degrees Offered:



Program Title


Ph.D.


Ed.D.


M.S.


M.A.


Master
of


M.Ed.


Chemical Engineering


Y




Y




Y





GRADUATE FACULTY

P. K. Kilpatrick, Head of the Department

Director of Graduate Programs:

S. A. Khan, Box 7905, 515.4519, [email protected]

Camille Dreyfus Professor: H. B. Hopfenberg



86



Distinguished University Professor: D. F. OUis

Graduate Alumni Distinguished Professor: C. K. Hall

Hoechst-Celanese Professor: R. G. Carbonell

W. H. Clark Distinguished Professor: K. E. Gubbins

William R. Kenan Jr. Distinguished Professor and Mary Ann Smith Professor: J. M. DeSimone

Professors: K. J. Bachmann, P. S. Fedkiw, B. D. Freeman, R. M. Kelly, P. K. Kilpatrick, P. K.
Lim, M. R. Overcash, G. W. Roberts, C. J. Setzer; Research Professors: J. J. Spivey; Visiting
Professors: M. O. Aboelfotoh; Adjunct Professors: I. Pinnau, M. E. Stewart; Professors Emeriti:
R. M. Felder, J. K. Ferrell, A. S. Michaels, V. T. Stannett; Associate Professors: C. S. Grant, S. A.
Khan, H. H. Lamb, G. N. Parsons, S. W. Peretti, R. J. Spontak, H. M. Winston; y4ssis/a/i/
Professors: J. Genzer, J. M. Haugh, J. H. van Zanten

ASSOCIATE MEMBERS OF THE PROGRAM

Professors: H. Jamecl; Associate Professors: C. M. Balik

Research activities in the department include: biochemical engineering, catalysis and reaction
engineering, computer-aided design and manufacturing, electronic materials, electrochemical
engineering, environmental engineering; polymer science and engineering, thermodynamics and
computer simulation, and transport phenomena.

Admissions Requirements: Students admitted to the graduate program normally have a
bachelor's degree in chemical engineering or its equivalent. Students with undergraduate degrees
in chemistry, physics or other engineering disciplines may be admitted but will be required to
make up undergraduate course work deficiencies in chemical engineering without graduate credit.
The most promising candidates will be accepted up to the number of spaces available.

Master of Science Degree Requirements: A set of five core courses is strongly recommended.
The thesis must be defended in a final public oral examination.

Master of Chemical Engineering Degree Requirements: A three-credit project is required. A
set of five core courses is strongly recommended.

Doctor of Philosophy Degree Requirements: Students normally take a set of five core courses,
two advanced chemical engineering courses and at least 6 credits of dissertation research. A thesis
is required; this must be defended in a final public oral examination. In addition, the candidate
must: (1) submit and defend an original written proposition in any area of chemical engineering,
and (2) submit and defend a proposal to perform his/her thesis research.

GRADUATE COURSES

CHE 525 Process System Analysis and Control.

CHE(OR) 527 Optimization of Engineering Processes.

CHE 543 Polymer Science and Technology.

CHE 546 Design and Analysis of Chemical Reactors.

CHE 551 Biochemical Engineering.

CHE 560 Chemical Processing of Electronic Materials.

CHE 565 Diffusion in Polymers.

CHE 575 Advances in Pollution Prevention: Environmental Management.



87



CHE(NE) 585 Management of Hazardous Chemical and Radioactive Wastes.

CHE 596 Special Topics.

CHE 597 Special Projects.

CHE 601 Seminar.

CHE 610 Special Topics.

CHE 685 Master's Supervised Teaching.

CHE 690 Master's Examination.

CHE 693 Master's Supervised Research.

CHE 695 Master's Thesis Research.

CHE 696 Summer Thesis Research.

CHE 699 Master's Thesis Preparation.

CHE 71 1 Chemical Engineering Process Modeling.

CHE 713 Thermodynamics I.

CHE 714 Thermodynamics II.

CHE 715 Transport Phenomena 1.

CHE 716 Transport Phenomena 11.

CHE 717 Chemical Reaction Engineering.

CHE 718 Advanced Chemical Reaction Engineering.

CHE 719 Electrochemical Systems Analysis.

CHE 72 1 Separation Processes.

CHE 752 Separation Processes for Biological Matenals.

CHE 760 Photochemical Engineering: Fundamentals and Applications.

CHE(MAT) 761 Polymer Blends and Alloys.

CHE(TC) 769 Polymers, Surfactants and Colloidal Matenals.

CHE 779 Diffusion in Polymers.

CHE 796 Special Topics in Chemical Engineenng.

CHE 797 Chemical Engineenng Projects.

CHE 798 Advanced Chemical Engineering Projects.

CHE 801 Seminar.

CHE 810 Special Topics.

CHE 885 Doctoral Supervised Teaching.

CHE 890 Doctoral Preliminary Examination.

CHE 893 Doctoral Supervised Research.

CHE 895 Doctoral Dissertation Research.

CHE 896 Summer Dissertation Research.

CHE 899 Doctoral Dissertation Preparation.

Chemistry
Degrees Offered:



Program Title


Ph.D.


Ed.D.


M.S.


M.A.


Master
of


M.Ed.


Chemistry


Y




Y




Y





GRADUATE FACULTY

B. M. Novak, Head of the Department

Director of Graduate Programs:

E. F. Bowden, Box 8204, 515.7069, [email protected]



Glaxo Distinguished University Professor: J. S. Lindsey



Professors: A. J. Banks, R. D. Bereman, E. F. Bowden, C. L. Bumgardner, H. H. Carmichael, D.
L. Comins, B. E. Eaton, M. A. Fox, K. W. Hanck, F. C. Hentz Jr., M. G. Khaledi, S. G. Levine, C.
G. Moreland, B. M. Novak, J. G. Osteryoung, R. A. Osteryoung, S. T. Purrington, A. F. Schreiner,
G. H. Wahl Jr., M. H. Whangbo, J. K. Whitesell, J. L. Whitten; Professors Emeriti: L. D.
Freedman, F. W. Getzen, R. H. Loeppert, W. P. Tucker, R. C. White; Associate Professors: C. B.
Boss, T. C. Caves, C. B. Gorman, J. D. Martin, D. A. Shultz, W. L. Switzer, B. Wang, D. W.
Wertz; Assistant Professors: D. L. Feldheim, S. Franzen, T. B. Gunnoe, M. T. Oliver-Hoyo, A. I.
Smimov, T. I. Smimova, J. L. White

ASSOCIATE MEMBERS OF THE PROGRAM

Associate Professors: D. W. Brenner

The Department of Chemistry offers programs of study leading to the Doctor of Philosophy,
Master of Science and Master of Chemistry degrees. The Ph.D. and M.S. degrees are based on
original research, while the Master of Chemistry degree is a non-research degree. Many research
projects merge disciplines such as biochemistry, computational science, materials science, physics,
statistics and to.\icology with chemistry. General courses as well as advanced and special topics
courses are offered.

Admission Requirements: Applicants should have an undergraduate degree in chemistry or in a
closely related field with a strong chemistry background. A GPA of at least 3.0 in the sciences is
needed for consideration. GRE General Test scores are strongly recommended, and the Subject
Test is recommended. Admission decisions are made as completed applications are received. For
most favorable consideration for the fall term, all application materials should be received by
March 1; for spring admission, by August 15.

Master's Degree Requirements: The requirements for a Master of Chemistry degree are 27 hours
of course work, 3 hours of a critical review paper and an oral examination on the review paper.
Students in this program should have present or past experience in a research laboratory. The M.S.
degree in chemistry requires 27 hours of course work and research leading to completion of a
thesis.

Doctoral Degree Requirements: In the doctoral program, emphasis is placed on original research
and a comprehensive knowledge of one's chosen field.

Student Financial Support: Incoming graduate students are supported by departmental teaching
assistantships. Outstanding applicants are eligible for supplemental fellowships during their first
year of study. Research assistantships are normally available to second-, third-, and fourth-year
students. The department also has fellowships for students interested in the area of electronic
materials, biotechnology and pharmaceutical and synthetic organic chemistry.

Other Relevant Information: The Department of Chemistry is one of five academic departments
in the College of Physical and Mathematical Sciences. Several new faculty have been added in the
last few years, thereby enhancing opportunities for graduate research.



89



GRADUATE COURSES



CH601 Seminar.

CH 610 Special Topics.

CH 615 Advanced Special Topics.

CH 677 Advanced Chemistry Projects.

CH 685 Master's Supervised Teaching.

CH 690 Master's Examination.

CH 693 Master's Supervised Research.

CH 695 Master's Thesis Research.

CH 696 Summer Thesis Research.

CH 699 Master's Thesis Preparation.

CH 701 Advanced Inorganic Chemistry I.

CH 703 Advanced Inorganic Chemistry II.

CH 705 Physical Methods in Inorganic Chemistry.

CH(MAT) 707 Chemical Concepts in Materials Science and Engineering.

CH 71 1 Advanced Analytical Chemistry 1.

CH 713 Advanced Analytical Chemistry II.

CH 714 Electronics and Instrumentation Laboratory.

CH 715 Chemical Instrumentation.

CH 717 Physical Methods of Elemental Trace Analysis.

CH 718 Trace Analysis Laboratory.

CH 721 Advanced Organic Chemistry I.

CH 723 Advanced Organic Chemistry II.

CH 725 Physical Methods in Organic Chemistry.

CH 727 Mass Spectrometry.

CH 730 Advanced Physical Chemistry.

CH 731 Chemical Thermodynamics I.

CH 733 Chemical Kinetics.

CH 736 Chemical Spectroscopy.

CH 737 Quantum Chemistry.

CH 739 Colloid Chemistry.

CH 741 Analytical Spectroscopy.

CH 743 Electrochemistry.

CH 745 Chemical Separation.

CH 755 Organic Reaction Mechanisms.

CH 757 Chemistry of Metal-organic Compounds.

CH 759 Natural Products.

CH(MAT,TC) 762 Physical Chemistry of High Polymers - Bulk Properties.

CH(MAT,TC) 772 Physical Chemistry of High Polymers-Solution Properties.

CH 801 Seminar.

CH 810 Special Topics.

CH 815 Advanced Special Topics.

CH 877 Advanced Chemistry Projects.

CH 885 Doctoral Supervised Teaching.

CH 890 Doctoral Preliminary Examination.

CH 893 Doctoral Supervised Research.

CH 895 Doctoral Dissertation Research.

CH 896 Summer Dissertation Research.

CH 899 Doctoral Dissertation Preparation.



90



Civil Engineering
Degrees Offered:



Program Title


Ph.D.


Ed.D.


M.S.


M.A.


Master
of


M.Ed.


Civil Engineering


Y




Y




Y





GRADUATE FACULTY

E. D. Brill Jr., Head of the Department

Director of Graduate Programs:

D. W. Johnston, Box 7908, 515.7412, [email protected]

Distinguished Professor: S. H. Rizkalla

Professors: M. A. Barlaz, R. C. Borden, R. H. Borden, E. D. Brill Jr., J. S. Fisher, A. K. Gupta, D.
W. Johnston, N. P. P. Khosla, Y. R. Kim, H. R. Malcom Jr., J. M. Nau, W. J. Rasdorf, N. M.
Rouphail; Adjunct Professors: L. E. King, K. H. Reckhow; Professors Emeriti: M. Amein, P. D.
Cribbins, R. A. Douglas, J. F. Ely, J. M. Hanson, K. S. Havner, C. L. Heimbach, Y. Hone, J. W.
Horn, A. I. Kashef, P. H. McDonald Jr., S. W. Nunnally, C. C. Tung, H. E. Wahls, P. Z. Zia;
Associate Professors: J. W. Baugh Jr., L. E. Bemold, W. L. Bingham, A. C. Chao, H. C. Frey, M.
A. Gabr, J. E. Hummer, M. L. Leming, V. C. Matzen, M. F. Overton, M. S. Rahman, S. R.
Ranjithan, J. R. Stone, A. A. Tayebali; Adjunct Associate Professors: D. R. van der Vaart;
Associate Professors Emeriti: E. D. Gurley, J. C. Smith; Assistant Professors: F. L. de los Reyes
III, J. J. Ducoste, M. N. Guddati, A. Gupta, T. Hassan, D. R. Knappe, M. J. Kowalsky, N.
Krstulovic, G. Mahinthakumar; Research Assistant Professors: D. H. Loughlin

Graduate programs are offered in coastal and ocean engineering, computer-aided engineering,
construction engineering and management, environmental and water resources engineering,
geotechnical engineering, structures and mechanics, transportation engineering and materials.

Admission Requirements: Provisional admission may be granted to applicants who do not satisfy
normal admission criteria but have other special qualifications. Applicants without academic
experience in civil engineering may be required to take undergraduate courses to remove
deficiencies, without graduate credit. The Graduate Record Examination normally is required of
all applicants.

Master's Degree Requirements: (M.CE.): The M.CE. is an Option B non-thesis degree with
other requirements, such as independent projects or core courses, specified in some areas of
specialization. At least two-thirds of a master's program should be in a well-defined major area of
concentration. A formal minor is not permitted. (M.S.): A thesis is required and a formal minor is
optional.

Doctoral Degree Requirements: The Ph.D. typically requires one year of full-time course work
beyond the master's degree and research culminating in a dissertation. The program must develop



91



a well-defined major area of concentration and may include supporting courses outside the major
or a formal minor in a related field.

Student Financial Support: Departmental teaching and research assistantships are available
including coverage of tuition and health insurance. Fellowships supplementing the assistantships,
which may include coverage of academic fees, are available for exceptional U. S. applicants. All
financial aid recipients are selected on merit-based competition with other applicants. Applications
requesting financial aid should be received by March 1 for Fall admission and by September 1 for
Spring admission.

GRADUATE COURSES

CE 501 Transportation Systems Engineering.

CE 502 Traffic Operations

CE 503 Highway Design.

CE 504 Airport Planning and Design.

CE 505 Advanced Airport Systems Design.

CE 509 Highway Safety.

CE521 Structural Models.

CE 522 Theory and Design of Prestressed Concrete.

CE 523 Theory and Behavior of Steel Structures.

CE 524 Analysis and Design of Masonry Structures.

CE(WPS) 528 Structural Design in Wood.

CE 537 Computer Methods and Applications.

CE 538 Information Technology and Modeling.

CE 548 Engineering Properties of Soils 1.

CE 549 Soil and Site Improvement.

CE 561 Construction Project Management.

CE 564 Legal Aspects of Contracting.

CE 571 Theory of Water and Waste Treatment.

CE 572 Design of Water and Wastewater Facilities.

CE 574 Chemistry and Microbiology for Engineers I.

CE 576 Engineering Principles of Air Pollution Control.

CE 577 Engineering Principles of Solid Waste Management.

CE 580 Flow in Open Channels.

CE 583 Engineering Aspects of Coastal Processes.

CE 584 Hydraulics of Ground Water.

CE 586 Engineering Hydrology.

CE 588 Water Resources Engineering.

CE 590 Special Topics in Civil Engineering.

CE 591 Special Topics in Civil Engineenng Computing.

CE 592 Special Topics in Construction Engineenng.

CE 593 Special Topics in Geotechnical Engineenng.

CE 594 Special Topics in Structural Mechanics.

CE 595 Special Topics in Transportation Engineering.

CE 596 Special Topics in Water Resources and Environmental Engineering.

CE 601 Civil Engineenng Seminar.

CE 602 Seminar in Civil Engineenng Computing.

CE 603 Seminar in Construction Engineenng.

CE 604 Seminar in Geotechnical Engineering.

CE 605 Seminar in Structural Mechanics.

CE 606 Seminar in Transportation Engineering.

CE 607 Seminar in Water Resources and Environmental Engineering.

CE 635 Advanced Reading in Civil Engineering.

CE 675 Civil Engineering Projects.

CE 685 Master's Supervised Teaching.

CE 693 Master's Supervised Research.

CE 695 Master's Thesis Research.

CE 696 Summer Thesis Research.



92



CE 699 Master's Thesis Preparation.

CE701 Urban Transportation Planning

CE 702 Traffic Flow Theory,

CE 705 Intelligent Transportation Systems.

CE 706 Advanced Traffic Control.

CE 71 3 Theory of Elasticity I.

CE 714 Stress Waves.

CE 715 Advanced Strength of Materials.

CE 717 Theory of Plates and Shells.

CE7I8 Plasticity and Limit Analysis.

CE 719 Finite Deformation of Materials I.

CE 720 Matn.x and Finite Element Structural Analysis I.

CE 721 Matrix and Finite Element Structural Analysis.

CE 722 Structural Dynamics.

CE 723 Advanced Structural Dynamics.

CE 724 Probabilistic Methods of Structural Engineering.

CE 725 Earthquake Structural Engineenng.

CE 726 Advanced Theory of Concrete Structures.

CE 737 Computer-aided Engineering Systems.

CE 741 Advanced Soil Mechanics.

CE 742 Advanced Soil Mechanics.

CE 744 Foundation Engineering.

CE 746 Dynamics of Soils and Foundations.

CE 751 Theory of Concrete Mixtures.

CE 753 Asphalt and Bituminous Materials.

CE 755 Highway Pavement Design.

CE 757 Pavement Management Systems.

CE 759 Inelastic Behavior of Construction Materials.

CE 761 Design of Temporary Structures.

CE 762 Construction Productivity.

CE 763 Materials Management in Construction.

CE 765 Construction Equipment Systems.



Online LibraryJames O'LavertyAn historical account of the Diocese of Down and Connor, ancient and modern (Volume 3) → online text (page 10 of 32)