Topics include developing engineering design and problemsolving techniques including group projects, basic engineering design concepts; basic computeraided design [CAD] including practical engineering drawings; mathcad; spreadsheet programming; time management including learning and study skills; professional and ethical responsibilities; and technical library and Internet research.
Topics include an introduction to computing environments for solving engineering problems including computeraided engineering [CAE], mathematical packages, and structured programming processes including algorithms, pseudo code, and editing and debugging with the C++ programming language. Applications include topics from numerical analysis and graphical representations. Corequisite: MATH 207
Topics include electrical engineering units, circuit elements, circuit laws, measurement principles, mesh and node equations, network theorems, energy storage elements, RC and RL circuits, unit step response, and second order circuits.
Prerequisites: ENGR 102 and MATH 207
A laboratory course in electrical engineering, 3 hours per week, to be taken simultaneously with ENGR 221.
Introduction to network analysis including sinusoidal [AC] steady state, average and RMS values, phasors, polyphase systems, complex frequency, network frequency response, two port networks and transformers, Fourier methods, and Laplace Transforms. Prerequisites: ENGR 221 and MATH 208
A laboratory course in electrical circuits, 3 hours per week, to be taken simultaneously with ENGR 224.
Examines engineering applications of equilibrium of forces, vector operations, couple and moment of force, resultants [2 and 3 dimensions], center of gravity and center of pressure, static friction, freebody diagrams, equilibrium trusses and frames. Prerequisite: ENGR 101 Corequisite: MATH 207
A course examining Newtonian dynamics of particles and rigid bodies: engineering applications of equations of motion, work and energy, conservative forces, impulse and momentum, impulsive forces, acceleration in several coordinate systems, and relative motion. Prerequisites: ENGR 241, MATH 207, and PHYS 221
Analysis of stress, deformation, and failure of solid bodies under the action of forces including internal force resultants, stress, strain, Mohr's Circle, mechanical properties of engineering materials, generalized Hooke's Law, analysis of axial, bending and buckling loads, and combinations. Prerequisites: ENGR 241 and MATH 207
Basic thermodynamic concepts, properties of pure substances, First and Second Law analysis of systems and control volumes are examined. Prerequisites: MATH 207 and PHYS 221
This course will focus on design of Boolean logic and finite state machines; standard SSI, MSI, and LSI parts; drawing standards and dependency notation; implementation with different logic families mainly TTL and MOS sticks; synchronous system design, ALU, memory, tristate, and opencollector busses; functional blocks in microprocessors; discussion of a typical example of a microcomputer; and simple I/O, switches, and LED displays.
Prerequisites: ENGR 102 or MATH 254 or CIS 211
Semiconductors, pn junction diodes, theory and application, bipolar junction transistors, operation biasing and BJT as an amplifier, JFETs and MOSFETs theory operation band applications, class A and C power amplifier, smallsignal, lowfrequency analysis and design. [Laboratory to reinforce the application of various devices.] Prerequisite: ENGR 224
The design of combinational and sequential digital circuits, logic families, Boolean algebra, Kmaps, VEM, MSI circuitry, state machines, ASM, timing diagrams, and CAD design. A laboratory design project is required.
Prerequisite: ENGR 221
Vector analysis, including gradient, divergence, divergence theorem curl, and Stokes's Theorem. A study of static electric field including Coulomb's Law, Gauss's Law, electric potential, convection and conduction current, electric energy density, Poisson's and Laplace's
Signal types, linearity, causality, linear differential and difference equations, zero state response, zero input response, discrete time, continuous time, convolution, correlation, Laplace transforms, transfer functions, polezero placement, initial value theorem, final value theorem, Ztransforms, sampling, frequency domain analysis.
Prerequisites: ENGR 224, MATH 310
This course will examine fluid statics, laminar and turbulent flow of compressible and incompressible fluids, flow measurements, open channel flow, and kinetics of fluids. Prerequisites: MATH 310 and ENGR 242
Students learn methods and skills for the engineering design process, demonstrate the ability to explore principles of engineering experimentation and design, identity real world projects in multidisciplinary engineering areas, and develop a practical plan to complete the projects [individual and/or group]. Approved written project proposals and oral presentations are required at the end of the semester. The written proposal should include problem descriptions, objectives, selected approach, design alternatives, equipment requirements, and time line, as well as ethical, legal, and environmental issues. Pass/fail grade. Prerequisites: Junior or senior standing and permission of instructor.
Students develop and complete the proposed projects by utilizing the knowledge and experience gained from previous courses and by demonstrating the analyses and experiments. Student are required to present work in a professional manner which consists of three parts: comprehensive written reports including research and analysis, oral presentations, and operating working models. Previously offered as 3 credits. Prerequisites: ENGR 489
Course NumberĀ  Course Name 
201314  201415  201516  201617  
FA 
SP 
FA 
SP  FA  SP 
FA  SP 

ENGR 101  Engineering I  x 
x 
x  x  
ENGR 102  Engineering II 

x 
x  x 
x  
ENGR 221  Intro to Electrical Engineering  x 
x 
x  x  
ENGR 222  Electrical Engineering Lab 
x 

x 
x 

x  
ENGR 224  Electrical Circuits 

x 

x  x 
x  
ENGR 225  Electrical Circuits Lab 

x 

x  x 
x  
ENGR 241  Engineering Statics  x 
x 
x  x  
ENGR 242  Engineering Dynamics 

x 
x  x 
x  
ENGR 243  Engineering Mechanics of Materials 

x 
x  x 
x  
ENGR 301  Engineering Thermodynamics  x 
x  
ENGR 305  Digital Logic Design & Lab 

x 
x  x 
x  
ENGR 326  Linear Systems  x 

x 
x 

x  
ENGR 351  Introduction to Fluid Mechanics 



x  x  
ENGR 489  Engineering Capstone Project I 
x 

x 
x  x  
ENGR 490  Engineering Capstone Project II 

x 

x  x 
x 