ENGL 121 English Composition (GEEC) (3 Hrs)
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CTAS 124 Fundamentals of Speech (GEEC)(3 Hrs)
Area II Quantative Reasoning . . . . . . . 4 Credit Hours
**MATH 120 Calculus (GEGA) (3 Hrs)
Calculus of functions of a single variable; differential calculus, including limits, derivatives, techniques of differentiation, the mean value theorem and applications of differentiation to graphing, optimization and rates. Integral calculus, including indefinite integrals, the definite integral, the fundamental theorem of integral calculus, and applications of integration to area and volume.
Area III Perspective Diversity . . . . . . . 6 Credit Hours
Global Awareness (GEGA) (3 Hrs)
U.S. Diversity (GEUS) (3Hrs)
Area IV Knowledge Of Discipline . . . . . . . . 27 Credit Hours
Natural Science
**CHEM 121/122 Gen. Chemistry (GEKN) (4 Hrs)
**PHY 223 Mech.Sound & Heat (GEKN) (5 Hrs)
A basic, calculus-based course in physics for students majoring in physical science and those on a pre-engineering curriculum. Topics include kinematics, Newton’s laws, work and energy, conservation laws, rotational motion, oscillations and sound.
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Social Science
GEKS ......... 3 credit Hours
GEKS (Diff. Prefix) ......... 3 Credit Hours
Arts
GEKA ......... 3 credit Hours
GEKA (Diff. Prefix) ......... 3 Credit Hours
Humanities
GEKH ......... 3 credit Hours
GEKH (Diff. Prefix) ......... 3 Credit Hours
Area V Learning Beyond the Classroom . . . . . . . . 3 Credit Hours
**ELEC 387 Co-Op in Electronics (GELBC) (3 Hrs)
An industrial experience in some facet of business or industry where the primary work emphasis is related to electronic engineering technology. During this period employee benefits may be received.
Major Requirements ............ 75 Credit Hours
ET 100 Intro. To Eng. Tech.(2 Hrs)
Introduction to the Engineering Technology profession by demonstrating and applying problem solving concepts from science and technology courses. Development of open-ended technological design projects which emphasize the communication skills. Supporting these activities is a structured syllabus that employs mathematical and physical reasoning towards the solution of fundamental engineering problems.
CADM 122 Engineering Graphics I (3 Hrs)
MATH 121 Calculus II (4 Hrs)
Calculus of functions of a single variable continued; additional applications of definite integration to moments, centroids, arc length, surface area and work. Transcendental functions, infinite series, methods of integration, review of conic sections.
MATH 122 Linear Algebra (3 Hrs)
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PHY 224 Electricity and Light (5 Hrs)
A continuation of
PHY 223 . Static and current electricity, magnetism and light.
COSC 246 Programming in C++ (3 Hrs)
Introduction to computers, programming techniques and integrated development environments using C and C++. Students work in a combination of lectures and supervised computer labs. Emphasis is on problem solving using good design principles and documentation techniques. Does not count towards the computer science minor, major or curriculum..
MET 312 Applied Dynamics Principles (3 Hrs)
Fundamentals of the kinematics and kinetics of motion with emphasis on practical applications of engineering systems. Theory and application of Newton’s Laws of Motion, displacement, velocity, acceleration, rectilinear and curvilinear motion, power, impulse and momentum.
QUAL 320 Industrial Quality Control (3 Hrs)
An introduction to quality control systems and methods utilized in industry. Topics include quality policy and organization, data collection, and reporting, control charts, process and gauge capability, sampling plans, reliability, cost of quality, product liability and problem analysis.
SET 350 Writing Intensive Course (3Hrs)
CET 427 Programmable Logic Controller
The application of electricity, electronics, programmable logic controller, data acquisition, and analysis techniques to the open-loop and closed-loop control of machines and processes. Emphasis will be given to utilization of computers and programmable logic controllers for industrial control purposes..
EET Concentration . . . . . . . 45 Credit Hours
ELEC 200 Circuit Analysis I (3 Hrs)
A first course in the fundamentals of circuit analysis and design. Kirchoff’s and Ohm’s Laws. Thevenin and Norton network theorems, with primary emphasis on DC circuits. Electronic instruments, laboratory data collection and report writing are also emphasized. Simulation software is used for computer assisted learning.
ELEC 210 Circuit Analysis I I (3 Hrs)
Second course in fundamental circuit analysis and design. Emphasis will be on steady state analysis and power in AC circuits. Laboratory data collection and report writing. Simulation software is used..
ELEC 214 Digital Circuit Analysis I (3 Hrs)
The study of combinational and sequential circuits, logic families and design procedures. Simulation software is used for computer-assisted learning. Lab exercises with typical circuits data collection and report writing.
ELEC 215 Computer Aided Electronics (3 Hrs)
This course will introduce the student to the computers and software used for electronic circuit design and layout. CAD tools are used to develop block diagrams, electronic symbols, component representation, layout and assemblies.
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ELEC 218 Motors and Controls (3 Hrs)
The study of DC and AC motor theory, operation and control. Power, energy, efficiency and applications of motors and motor control circuitry are featured.
ELEC 300 Analog Circuit Analysis I (3 Hrs)
The study of the fundamentals of discrete solid state devices and linear integrated circuits. The concepts of instrumentation and control applications are included. Data collection and report writing are required.
ELEC 310 Analog Circuit Analysis II (3 Hrs)
The continuation of analog circuit design and analysis, including operational amplifiers, filters and phase-locked-loops. Laboratory exercises, data collection and report writing are included; and simulation software is used for enhanced learning.
ELEC 314 Digital Circuit Analyses II (3 Hrs)
The continuation of digital circuit design and analysis. Laboratory exercises with circuitry interfaced to a personal computer and report writing. Simulation software is also used..
ELEC 320 Microcomputer Circuits (3 Hrs)
Circuit design and principles are considered, including address-control-data lines in microprocessors, memory and interfacing. Machines and other programming languages are used in laboratory exercises.
ELEC 326 Transform Circuit Analysis with Calculus (3 Hrs)
This course presents the fundamentals of transient circuit and system analysis with an emphasis on the Laplace transform and pole-zero approach for analyzing and interpreting problems.
ELEC 415 Communication Circuits (3Hrs)
The principles of communication circuits and systems are studied, including oscillators, amplifiers, modulation, antennas and transmission lines. Information theory, voice and data communications are considered also.
ELEC 420 Advanced Microprocessors (3 Hrs)
Further study of microprocessors and interfacing applications. Use of personal computers as the platform for data collection, instrumentation and control applications..
ELEC 479 Special Topics I: Control Systems (3 Hrs)
ELEC 479 Senior Design Project (3 Hrs)
ELEC 479 Special Topics II: (3 Hrs)
Program Total
............ 124 Credit Hours
Note:
Each student must choose a writing intensive course as part of major completion requirements. Consult your adviser for course options.
