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The following presentation is created byDr.
Nelly M. AbboudAssociate ProfessorDept. of
Civil EnvironmentalEngineering
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School of Engineering
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Branches of Engineering

• Chemical Engineering
• Civil Environmental Engineering
• Computer Science Engineering
• Electrical Systems Engineering
• Mechanical Engineering
• Metallurgy Materials Engineering

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Ten Engineering Bachelors Program at UCONN

• BSE in Chemical Engineering
• BSE in Civil Engineering
• BS in Computer Science
• BSE in Computer Science Engineering
• BSE in Computer Engineering
• BSE in Electrical Engineering
• BSE in Environmental Engineering
• BSE in Management Engineering Manufacturing
• BSE in Mechanical Engineering
• BSE in Metallurgy Engineering

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Our Friendly Faculty and Staff can answer your
question
CSE
CHE
CEE
EE
ME
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Chemical EngineeringAreas of Specialization

• Polymer Science / Materials Engineering
• Biochemical Engineering / Biotechnology
• Environmental Engineering
• Kinetics and Catalysis
• Applied Chemistry
• Computer Applications / Applied Math
• Systems Analysis / Process Control
• General Chemical Engineering

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Civil Environmental EngineeringAreas of
Specialization

• Environmental Water Resources
• Structures Applied Mechanics
• Transportation Engineering

• Highways
• Water Treatment Plants
• Wastewater Treatment Plants
• Hazardous Waste Cleanups

• Buildings
• Bridges
• Dams
• Airports

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Computer EngineeringAreas of Specialization

• Real-Time Computing System
• Communications and Computer Networks
• VLSI Design/Fabrication

We are the link to the Future
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Electrical Engineering Areas of Specialization

• Biomedical Engineering
• Electronics / Photonics
• Information / Computing Systems

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Environmental EngineeringAreas of Specialization

• Water Supply and Resources
• Environmental Systems Modeling
• Environmental Chemistry
• Wastewater Management
• Solid Waste Management
• Hazardous Waste Management
• Atmosphere Systems Air Pollution
• Environmental and Occupational Health

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Mechanical Engineering Areas of Specialization

• Computer-Aided Design and Graphics
• Manufacturing
• Aerospace
• Biomedical
• Transportation
• Environmental
• Fuel, Combustion, Materials, and Energy
• Product Safety and Reliability
• Technology and its Impacts on Society

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ENGINEERS ARE INVENTORS CREATORS
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Engineers make dreams come true
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Your life is affected daily by the work of
engineers
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From waking up to an alarm clock to your daily
routine
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All Branches of Engineers work together on
inventing and improving products for your daily
use
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Engineers save lives by making equipment for
hospitals
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Engineers get your message across the world
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• Environmental Engineers
• Safer Environment
• Clean Water
• Clean Air

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CIVIL ENGINEERSBuild your house so you can call
it home
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Water Resources Engineershave the solution to
your thirst
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For your pleasure or work Engineers design it for
you
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Electrical Engineers keep you cool in the summer
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Petroleum Engineers Energy, Oil, and Gas
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Environmental Engineers work on recycling and
saving the Planet
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Mechanical Engineers design lighter and faster
bikes
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Engineers create and improve materials such as
plastics, ceramic, and glass
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Computer Engineers design faster computers
without problems
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Agricultural Engineers work on better fertilizers
for soil and safer produce
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Chemical Engineers and their early creation
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Chemical Engineers invent cleaners for many
purposes
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Engineers deliver your game to your home
UCONN Huskies are 1
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Engineers work on food processes and beverage
products
?
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Civil EngineersBridges, Hydraulics and Water
Treatment
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It takes many branches of Engineers to make
ships, boats
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Many branches of Engineers work together to make
planes
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Electrical Engineers help you see when it is dark!

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Transportation Engineers make design bridges,
highways, and roads to make driving safe
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Engineers are the railroad to the FUTURE
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Definition of Engineering

• Engineering is the profession in which a
  knowledge of the mathematical and natural
  sciences gained by study, experience and practice
  is applied with judgment to develop ways to
  utilize, economically, the materials and forces
  of nature for the benefit of society.

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People Responsible for Technological Progress

• Scientist
• Searches for new knowledge concerning the nature
  of society and the universe. Infrequently
  involved in supervisory work.

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People Responsible for Technological Progress

• Engineer
• Translates the findings of science into usable
  forms by his / her designs. Develops new
  principles and method useful to society. Work
  usually involves a high degree of creativity.
  Frequently supervises the work of the engineering
  and scientific team.

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Scientist vs. Engineer

• Scientists explore what is.
• Scientist try to improve their understanding of
  nature.
• Their objective is knowledge.

• Engineers create what has never been.
• Engineers apply knowledge for the benefit of
  society.
• Their objective is a device, structure, or
  process.

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UNIVERSITY OF CONNECTICUT

• Six Campuses
• 15 Schools and Colleges
• 74 Academic Programs in the Humanities
• 49 Academic Programs in the Sciences
• 19 Academic Programs in Engineering
• UCONN 2000!!!

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UNIVERSITY OF CONNECTICUT

• 15,000 Undergraduate students at 6 campuses
• 1000 International students from 93 nations
• 200 Student organizations
• Reasonably priced education
• Winning Athletic Programs

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Engineering Departments

• Chemical Engineering
• Civil Environmental Engineering
• Computer Science Engineering
• Electrical Systems Engineering
• Mechanical Engineering
• Metallurgy Materials Engineering

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SCHOOL OF ENGINEERING

• 100 Faculty Members
• 1000 Undergraduate Students
• 101 Student / Faculty Ratio
• Scholarships

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SCHOOL OF ENGINEERING

• No TAs teach courses
• Small classes - 25 students is normal
• Residential tutor in engineering dorm
• Engineering learning center housing
• Diversity program director
• Placement, CO-OP, and internship coordinator
• 60 available computers and consultants

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SCHOOL OF ENGINEERING

• CO-OP and internship opportunities
• Undergraduate research opportunities
• Exceptional facilities
• 100 Companies involved with our programs

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CO-OP OPPORTUNITIES

• ASSOCIATED SPRING
• BOSTON GLOBE
• BRISTOL BABCOCK, INC.
• CHESEBROUGH-PONDS USA
• ENGINEERING TECHNOLOGY CENTER
• GENERAL DYNAMICS, ELECTRIC BOAT DIVISION WIREMOLD
  CO.
• HARTFORD COMPRESSORS, INC.
• JOHNSON JOHNSON

• LEGO SYSTEMS
• PRATT WHITNEY
• PITNEY BOWES
• SCIENCE APPLICATIONS INTERNATIONAL CO.
• SPENCER TURBINE COMPANY
• THE TORRIGNTON COMPANY
• U. S. SURGICAL CORPORATION
• WARNER LAMBERT CO.
• WIREMOLD CO.

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Chemical Engineering
Film
Drug
Enzyme
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Definition of Chemical Engineering

• Chemical Engineering is concerned with the
  development and application of processes in which
  materials are made to undergo a change in
  physical state, energy
• content, or composition.

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Chemical EngineersOutstanding Achievements

• Establishment of the plastics industry.
• Ushered in the synthetic fibers industry.
• Brought into existence the synthetic rubber
  industry.
• More durable and morecost effective products for
  our everyday lives!

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CHEMICAL ENGINEERING LOWER DIVISION COURSES

• FRESHMAN YEAR
• CHEMISTRY
• MATHEMATICS
• ENGINEERING
• ENGLISH
• HISTORY
• SOCIAL SCIENCE

• SOPHOMORE YEAR
• PHYSICS
• MATHEMATICS
• THERMODYNAMICS
• STATICS
• LITERATURE
• ELECTIVE

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CHEMICAL ENGINEERING UPPER DIVISION COURSES

• JUNIOR YEAR
• THERMODYNAMICS
• TRANSFER OPERATION
• ORGANIC CHEMISTRY
• PHYSICAL CHEMISTRY
• ORGANIC CHEMISTRY LAB
• TRANSFER OPERATION
• PROCESS KINECTICS
• PHYSICAL CHEMISTRY LAB
• NON WESTERN CULTURE
• PROFESSIONAL REQUIREMENT

• SENIOR YEAR
• CHEM. ENG. LAB
• PROCESS DES.ECON
• PROCESS DYNAMIC CONTROL
• PROCESS DESIGN
• CHEMICAL AND PROFESSIONAL REQUIREMENTS
• ELECTIVES
• FINE ARTS COURSE

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How About Specialization?Areas of
Concentration?In Chemical Engineering

• Polymer Science/Materials Engineering
• Biochemical Engineering /Biotechnology
• Environmental Engineering
• Kinetics and Catalysis
• Applied Chemistry
• Computer Applications /Applied Math
• Systems Analysis/Process Control
• General Chemical Engineering

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Department of Civil Environmental Engineering

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Department of Civil Environmental Engineering

Truth in Design through knowledge

• Highways
• Water Treatment Plants
• Wastewater Treatment Plants
• Hazardous Waste Cleanups

• Buildings
• Bridges
• Dams
• Airports

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Department of Civil Environmental
EngineeringAreas of Specialization

• Environmental Water Resources
• Structures Applied Mechanics
• Transportation Engineering

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Department of Civil Environmental Engineering
State-of-the-Art Software Tools
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Department of Civil Environmental
EngineeringMore Reasons to Choose Connecticut

• Close Student/Faculty Interactions
• Small class sizes - typically lt 25 students per
  class
• Double Major Options With Materials
  Engineering Eurotech program - Dual Degree
  in Civil Environmental Engineering and
  German.
• Minor Options Materials Engineering

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Department of Civil Environmental
EngineeringWhere Our Graduates Have Gone

• Private Practice and Public Service
• Bechtel
• Camp, Dresser McKee
• Connecticut D.E.P.
• Connecticut D.O.T.
• ENVIRON Corp.
• Fuss ONeil
• General Dynamics
• Hardesty Hanover
• Stone Webster
• United Technologies
• U.S. E.P.A.

• Graduate Schools
• Berkeley
• Colorado
• Columbia
• Connecticut
• Cornell
• Illinois
• Michigan
• M.I.T.
• Stanford
• Washington
• Yale

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CIVIL ENGINEERING LOWER DIVISION COURSES

• FRESHMAN YEAR
• CHEMISTRY
• MATHEMATICS
• ENGINEERING
• ENGLISH
• HISTORY
• SOCIAL SCIENCE

• SOPHOMORE YEAR
• PHYSICS
• MATHEMATICS
• STATICS
• DYNAMICS
• LITERATURE
• ARTS
• PHILOSOPHY

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CIVIL ENGINEERING UPPER DIVISION COURSES

• JUNIOR YEAR
• SOIL MECHANICS
• FOUNDATIONS
• ENVIRONMENTAL ENG.
• ELEMENTARY SURVEYING
• MECHANICS OF MATERIALS
• FLUID MECHANICS
• BASIC STRUCTURAL DESIGN
• CEE PROF.ISSUES SEMINAR
• TRANSPORTATION DESIGN
• ELECTIVES
• NON WESTERN CULTURE

• SENIOR YEAR
• PROFESSIONAL REQUIREMENTS ELECTRICAL ENG.
  PRINCIPLES ELECTIVES
• CEE PROFESSIONAL ISSUES SEMINARS
• APPLIED ENG. ECONOMICS CIVIL ENG. PROJECTS
• THERMAL SCIENCE

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Computer Science Engineering

• They work on Design and Development of Computing
  Solutions

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Computer Science Engineering

• I highly recommend
• UCONN

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COMPUTER SCIENCE ENGINEERING LOWER DIVISION
COURSES

• FRESHMAN YEAR
• CHEMISTRY
• MATHEMATICS
• ENGINEERING
• ENGLISH
• HISTORY
• SOCIAL SCIENCE
• COMPUTER SCIENCE

• SOPHOMORE YEAR
• PHYSICS
• MATHEMATICS
• STATICS
• COMPUTER SCIENCE
• ELECTRICAL ENGINEERING
• ARTS
• PHILOSOPHY

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COMPUTER SCIENCE ENGINEERING UPPER DIVISION
COURSES

• SENIOR YEAR
• DESIGN LABORATORY
• COMPUTER SCIENCE ENG.
• PROFESSIONAL REQUIREMENTS
• MATH
• ELECTIVES

• JUNIOR YEAR
• COMPUTER SCIENCE ENG.
• ELECTRICAL ENGINEERING
• ENGLISH LITERATURE
• PROB. STAT.
• NON WESTERN CULTURE
• ELECTIVE

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Department of Computer Science and
EngineeringAreas of Specialization

• Real-Time Computing Systems
• Communications and Computer Networks
• VLSI Design / Fabrication

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ELECTRICAL ENGINEERING LOWER DIVISION COURSES

• FRESHMAN YEAR
• CHEMISTRY
• INTRODUCTION OF NUMERICAL COMPUTATION
• MATHEMATICS
• ENGLISH
• HISTORY
• SOCIAL SCIENCE
• ELECTIVE

• SOPHOMORE
• PHYSICS
• MATHEMATICS
• COMPUTER SCIENCE
• LOGIC DESIGN LAB
• APPLIED MECHANICS
• ANALOG DESIGN LAB
• CIRCUIT DESIGN
• FINE ARTS
• PHILOSOPHY ETHICS

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ELECTRICAL ENGINEERING UPPER DIVISION COURSES

• JUNIOR YEAR
• SIGNALS SYSTEMS
• ELECTRONIC DEVICES / CIRCUITS
• ELECTROMAG. FIELDS APPL.
• ELECTROMAG. WAVES APPL.
• SYSTEMS ANALYSIS
• MICRO / OPTO. ELEC.
• ELEC.ENG.LAB
• PROBABILITY MODELS
• ENGLISH
• NON WESTERN CULTURE

• SENIOR YEAR
• ELECTRICAL ENG. DESIGN I II
• COMMUNICATION SYSTEMS
• DESIGN LAB
• ELECTRONIC CIRCUIT APPL.
• PROFESSIONAL REQUIREMENTS
• ELECTIVES

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Department of Electrical Engineering Areas of
Specialization

• Biomedical Engineering
• Electronics / Photonics
• Information / Computing Systems

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Environmental EngineeringProgram
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ENVIRONMENTAL ENGINEERING LOWER DIVISION COURSES

• FRESHMAN YEAR
• CHEMISTRY
• MATHEMATICS
• ENGINEERING
• HUMANS THE CHANGING GLOBAL ENVIR.
• THE ENVIR. DEBATE
• ENGLISH
• HISTORY
• SOCIAL SCIENCE

• SOPHOMORE YEAR
• PHYSICS
• MATHEMATICS
• STATICS
• ENVIRON. ENG. FUNDAMENTALS
• GENERAL ECOLOGY
• CIVIL ENG. SYSTEMS
• THERMODYNAMICS
• THE ENVIR. DEBATE
• PHILOSOPHY / ETHICS

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ENVIRONMENTAL ENGINEERING UPPER DIVISION
COURSES

• JUNIOR YEAR
• ENVIRONMENTAL ENG. CHEMISTRY
• THERMODYNAMICS
• TRANSFER OPERATIONS
• ENVIR. RATE PROCESSES
• ENVIR. ENGINEERING LAB
• ENVIR. MODELING
• WATER QUALITY ENGINEERING
• THE ENVIRONMENTAL DEBATE

• SENIOR YEAR
• ENVIRONMENTAL HEALTH
• ENVIR. ENG. DESIGN PROJECTS
• PROFESSIONAL ELECTIVES
• THESIS
• INTRODUCTION TO AIR POLLUTION
• NON WESTERN CULTURE

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Environmental EngineeringAreas of Specialization

• Water Supply and Resources
• Environmental Systems Modeling
• Environmental Chemistry
• Wastewater Management
• Solid Waste Management
• Hazardous Waste Management
• Atmosphere Systems Air Pollution
• Environmental and Occupational Health

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Eurotech Program

• Dual Degree Program in
• Civil and Environmental Engineering
• German
• Work Period in Germany

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EUROCTECH LOWER DIVISION COURSES

• FRESHMAN YEAR
• CHEMISTRY
• MATHEMATICS
• ENGINEERING
• ELEMENTARY GERMAN
• ENGLISH COMP.
• ENLISH LITERATURE

• SOPHOMORE YEAR
• PHYSICS
• MATHEMATICS
• STATICS
• DYNAMICS
• INTER. GERMAN
• APP. MECH. REC. IN GERMAN

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EUROTECH UPPER DIVISION COURSES

• JUNIOR YEAR
• ADVANCED LANGUAGE SKILLS
• FIELDS OF TECH
• FLUID MECHANICS
• PROFESSIONAL SEMINAR
• MECHANICS OF MATERIALS
• ELEMENTARY SURVEYING
• ELETCIVES

• PRE-SENIOR YEAR
• GERMAN WORK PERIOD
• GERMAN LANG. PRAC.
• EUROTECH INTER. ABROAD
• GERMAN FILM CULTURE
• PROFESSIONAL REQUIREMENTS
• PROFESSIONAL SEMINARS
• THERMAL SCIENCE
• SOCIAL SCIENCE
• PROFESSIONAL SEMINAR

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EUROTECH UPPER DIVISION COURSES

• SENIOR YEAR
• GERMAN CULT. CIV.
• PROFESSIONAL REQUIREMENTS
• ELECTIVES
• GERMAN LITERATURE
• CIVIL ENGINEERING PROJECTS
• APP. OF ENG. ECON. IN DES.
• NON WESTERN CULTURE

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Management and Engineering for Manufacturing

• Joint Program between
• School of Business Administration
• and
• School of Engineering

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MANAGEMENT AND ENGINEERING FOR MANUFACTURING
LOWER DIVISION COURSES

• SOPHOMORE
• PHYSICS
• MATHEMATICS
• STATICS
• MANUFACTURING LAB
• INTRO. TO MANUFACTURING SYSTEMS
• ELECTIVES
• LITERATURE
• ARTS
• PHILOSOPHY

• FRESHMAN YEAR
• CHEMISTRY
• MATHEMATICS
• ENGINEERING
• ENGLISH
• MODERN EUROPE
• LITERATURE
• INTRO. TO MANAG. ENG. FOR MANFACTURING
• PRICIPLES OF ECONOMICS
• ELEMNTARY CONCEPTS OF STATISTICS

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MANAGEMENT AND ENGINEERING FOR MANUFACTURING
UPPER DIVISION COURSES

• JUNIOR YEAR
• MECHANICS OF MATERIALS
• MANAG. ENG. FOR MANUF. ACCOUNTING
• ELECTRICAL ENG. PRINCIPLES
• INTRO. TO PRODUCTS PROCESSES
• MATERIALS SCI. ENG.
• BUSINESS INFORMATION SYSTEMS
• BUSINESS FINANCE
• INTRO. TO MANAGEMENT
• INTRO. TO MARKETING MANGEMENT
• PRODUCTION ENGINEERING
• MEASUREMENT TECHNIQUES
• COMPUTER IN MANUFACTURING

• SENIOR YEAR
• BUSINESS LAW
• MANUFACTURING AUTOMATION
• DESIGN OF MACHINE ELEMENTS
• ADVANCED PRODUCTS PROCESSES
• INDUSTRIAL QUALITY CONTROL
• STRATEGY, POLICY PLANNING
• THERMAL SCIENCE
• ADV. MANUFACTURING SYSTEMS
• HUMANITIES
• TECHNICAL ELECTIVES

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MECHANICAL ENGINEERS

• Transform energy and materials into useful
  products.
• Design energy conversion systems, manufacturing
  processes, and mechanisms to improve our lives.
• Are employed in the aerospace and automotive
  industries, manufacturing and materials
  processing industries, biomedical industry,
  microelectronics industries and many more.

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MECHANICAL ENGINEERING LOWER DIVISION COURSES

• FRESHMAN YEAR
• CHEMISTRY
• MATHEMATICS
• ENGINEERING
• ENGLISH
• HISTORY
• SOCIAL SCIENCE

• SOPHOMORE
• PHYSICS
• MATHEMATICS
• THERMODYNAMICS
• STATICS
• DYNAMICS
• LITERATURE
• ARTS
• PHILOSOPHY

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MECHANICAL ENGINEERING UPPER DIVISION COURSES

• JUNIOR YEAR
• THERMODYNAMICS
• CONTROLS
• DYNAMICS
• FLUID DYNAMICS
• MEASUREMENTS
• MATERIALS
• ELECTRICAL
• NON WESTERN CULTURE

• SENIOR YEAR
• MACHINE DESIGN
• HEAT TRANSFER
• COMPUTATIONAL
• SENIOR DESIGN
• MECHANICAL AND PROFESSIONAL REQUIREMENTS
• ELECTIVES

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Mechanical Engineering Areas of Specialization

• Computer-Aided Design and Graphics
• Manufacturing
• Aerospace
• Biomedical
• Transportation
• Environmental
• Fuel, Combustion, Materials, and Energy
• Product Safety and Reliability
• Technology and its Impacts on Society

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Rewards of Beingan Engineer?

• Challenge and variety in the work.
• Having ideas accepted and put to use.
• Treatment as a professional status and
  personal freedom.

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Rewards of Beingan Engineer?

• Recognition of contributions.
• Association withable coworkers.
• Opportunities to learn.

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Rewards of Beingan Engineer?

• STARTING SALARIES
• for New College Graduates
• Chemical Engineering 45,200
• Electrical Engineering 42,900
• Computer Engineering 42,900
• Computer Science 42,600
• Mechanical Engineering 40,900
• Aerospace Engineering 40,300
• Environmental Engineering 40,200
• Biomedical Engineering 39,400
• Agricultural Engineering 35,300
• Civil Engineering 35,100
• National Averages, July 1998

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Why the University of Connecticut?

• A Cadillac of an Education for the Cost of a
  Chevette!
• Depending on your personal values, substitute
  any of the following in the above
  Lincoln/Escort, BMW/Volkswagen, Lexus/Tercel.

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Hope to see you soon at UCONN
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