COLLEGES Sciences to the extent allowed by their back- grounds. Admission Requirements: Admission to this program is a selective process and is based on courses completed and quality of academic record. Applicants should have a cumulative grade point average of at least a 2.0 and a C average in each of the pre-engineering technical course sequences (calculus, chemistry, and physics). Students earning exemplary grades can be admitted before they have completed the pre- engineering curriculum. Degree Programs: The Department of Envi- ronmental Engineering Sciences offers the fol- lowing degrees: Bachelor of Science in Environmental Engineering, Master of Engi- neering, Master of Science, the Engineer degree and Doctor of Philosophy. Curriculum Leading to the Bachelor of Science in Environmental Engineering The curriculum for Environmental Engineer- ing is as follows: Courses Credits Pre-Engineering Curriculum .......................55 CGS 3422 Computer Programming for Engineers................................... ...... 2 EML 3023 Computer Assisted Drafting and Design......................................... ..3 EGM 3511 Engineering Mechanics-Statics....3 EGM 3400 Engineering Mechanics- Dynam ics .................................... ............... 2 Group A: These courses should be complet- ed or in progress before Group B or C courses are attempted. EML 3100 Thermodynamics ........................3. CWR 3201 Hydrodynamics........................4 STA 3032 Engineering Statistics ..................3. ENV 3020 Computational Methods in Env. Eng...... ......... ........................ ..........3 EES 4102 Environmental Biology 1 ................2 EES 4200 Environmental Chemistry of Carbon Compounds............................... .2 EES 4201 Introduction to Water Chemistry........................ ............... 3 ENV 4101 Elements of Atmospheric Pollution.......................... ................ 3 ENV 4351 Solid Waste Management .............3 ENV 4501C Water and Wastewater 1 ............3 Group B: These courses should be attempted only after all Group A courses have been completed or are in progress. ENV 4330 Hazardous Waste Control ............3 ENV 4601 Environmental Resources M anagem ent......................................... ...2 ENV 4121 Air Pollution Control Design .......3 ENV 4514C Water and Wastewater 2 ............3 ENV 4561 Hydraulic Systems Design............3 t Technical Elective credits (see list of technical electives)....................................... 12 Group C: These courses may be taken after attaining 3EG status and satisfying appropriate prerequisites. ENV 4932 Environmental Biology Laboratory ............................ .......... EMA 3010 Materials 1 .......................... ........ 3 EEL 3003 Elements of Electrical Engineering................................................ EES 4103 Environmental Biology 2 ................3 ENV 3930 Undergraduate Seminar................1 Total Semester Hours 130 t A minimum of 6 credits in design are required, including one capstone course (*). One of the elective courses must contain a significant laboratory component (*). Technical Electives Credits Sci. Des. CWR 4101C Hydrology or CWR 4111 Engin. Hydrology...........3 CWR 4202 Hydraulics ...........................1.5 1.5 EES 3008 Energy and Environment....3 EES 4241C Introduction to Water Analysis**............................................. 3 EES 4401 Public Health Engineering...3 EES 5305C Ecological and General System s................................................. 3 EES 6405 Environmental Toxicology...3 ENV 4112C Air Sampling and Analysis**................... ................3 ENV 4122 Design of Air Pollution Control System*................................... 3 ENV 4201 Introduction to Radio- logical Health...............................3. ENV 4212 Nuclear Power Radio- active Waste Technology ...................3 ENV 4430 Water Treatment Process D esign ................................................... 3 ENV 4432 Potable Water System Design*.................................................. 3 ENV 4531 Water and Wastewater Treatm ent............................................. 4 ENV 4532 Wastewater System D esign*................................................. 3 ENV 4554C Industrial Wastewater Treatm ent** .......................................... 1 2 ENV 4932 Hydrologic System Design*............................ ............... 0 3 ENV 4932 Introduction to Pollutant Transport ...... .................. ..........1 2 ENV 5075 Environmental Policy..........3 ENV 6117 Industrial and Occupational Air Sampling Analysis.**..............3. ENV 6146 Atmospheric Dispersion M modeling ............................................. 1.5 SUR 3101 Basic Surveying and M apping ...............................................3 Undesignated elective (Up to 3 credits design or science; adviser approval required: ENV 3000 not allowed) All required courses (including electives) with an ENV or EES prefix taken as part of the student's formal curriculum must be completed with a cumulative average of C or better. Industrial and Systems Engineering Industrial growth has created unusual opportunities for the industrial and systems engineer. Automation and the emphasis on increased productivity coupled with higher lev- els of systems sophistication are providing impetus to the demand for the engineering graduates with a broad interdisciplinary back- ground. The industrial engineering option prepares the student for industrial practice in such areas as product design, process design, plant opera- tion, production control, quality control, facili- ties planning, work system analysis and evaluation, and economic analysis of opera- tional systems. The systems engineering option emphasizes the integration of knowledge and technology from the engineering, biological, and physical sciences to carry out the processes of descrip- tion, analysis, synthesis, and optimization in both the industrial and nonindustrial setting. Furthermore a student in this area learns to define problems from a broad perspective in which the contributions of individual compo- nents to a total mission are clearly seen. Students in both options are trained to use engineering principles in the solution of prob- lems encountered in environments and situa- tions where a quantitative basis for decision making is desirable. Such decision making requires the application of the tools of eco- nomics, operations research, statistics, mathe- matics, and engineering analysis, with dependence on the computer. The industrial engineering option equips the student for pro- fessional engineering practice while the systems engineering option further prepares the student to carry out analysis and design of large scale operations requiring diversified inputs. Both options provide the training necessary for admission to graduate study. Degree Programs: The Industrial and Systems Engineering department offers the following degrees: Bachelor of Science in Industrial and Systems Engineering, Master of Engineering, Master of Science, the Engineer Degree, and Doctor of Philosophy. Admission Requirements: Applicants should understand that admission to this program is a selective process. Admission will be based on a student's whole record including educational objectives, courses completed, quality of aca- demic record, and other important facts. Priori- ty in admission will be given to those students whose potential on the basis of the entire record indicates the greatest likelihood of success in the program. Applicants should have a grade point aver- age of 2.5 or higher in pre-engineering courses, with at least a 2.5 grade point average in techni- cal courses (calculus and physics). Special Grade Requirements: A grade of C or better must be earned in each required statistics course and each required course taught by the