EGR 117 ENGINEERING GRAPHICS

T F all

A study of classical engineering drafting techniques starting with hand sketching through state-of-the-art computer aided drafting techniques. Topics include concepts in descriptive geometry, sketching and lettering, orthographics projections, isometrics, perspectives, auxiliary views and sectioning. Class projects include examples in engineering and architecture.

Credit: 4 hours - Two lecture and four lab hours per week.

Prerequisite(s): None

EGR 118 COMPUTER PROGRAMMING FOR SCIENCE AND ENGINEERING-FORTRAN

T By Request

Introduction to computer programming for computer science, engineering, and science majors. Includes mathematical problem-solving techniques and computational techniques, random processes, algorithms, convergence of series, error analysis, numerical and statistical analysis, and simulation.

Credit: 4 hours - Three lecture and two lab hours per week.

Prerequisite(s): Calculus I-MAT 117

EGR 119 COMPUTER PROGRAMMING FOR SCIENCE AND ENGINEERING-C

T By Request

An introduction to computer programming for computer science, engineering, mathematics and science majors. The course includes mathematical problem solving techniques, computational techniques, random processes, algorithms, convergence of series, error analysis, numerical analysis, statistical analysis, and simulation. Emphasis is placed on using the mathematical functions of the language to solve problems encountered in science and engineering.

Credit: 4 hours - Four lecture hours per week.

Prerequisite(s): Calculus I-MAT 117

EGR 213 INTRODUCTION TO DIGITAL SYSTEMS

T By Request

A study of number systems, Boolean algebra, combinational logic circuits, sequential logic circuits, and switching circuits. Basic logic device design and operation will be emphasized. Circuit simplification using Karnaugh mapping will be detailed. It will be shown how each of these circuits, devices and tools can be used to design, build or troubleshoot a digital system.

Credit: 3 hours - Three lecture hours per week.

Prerequisite(s): None

EGR 214 ENGINEERING DYNAMICS

T F all

A study of dynamics of rigid bodies and systems of discrete particles, including linear and rotational motions. This course is a sequence of EGR 219 - Statics, and is intended for engineering majors.

Credit: 3 hours - Three lecture hours per week.

Prerequisite(s): Statics-EGR 219

EGR 215 INTRODUCTION TO CIRCUIT ANALYSIS

T By Request

An introduction to electrical circuits and the basic laws of AC and DC linear circuits. Loop , mesh, and node techniques are used along with Thevein and Norton theorems and the superposition rules. Both steady state and transient cases are studied. Phasor notations are used in AC circuits involving reactances.

Credit: 3 hours - Three lecture hours per week.

Prerequisite(s): University Physics II-PHY 217 and Calculus III-MAT 212

EGR 218 ENGINEERING THERMODYNAMICS

T Spring

A study of concepts and principles of thermodynamics, includes law of thermodynamics, kinetic theory analysis, open and closed systems, reversibility, entropy and power systems.

Credit: 3 hours - Three lecture hours per week.

Prerequisite(s): University Physics-PHY 216 and Inorganic Chemistry-CHE 114

EGR 219 ENGINEERING STATICS

T Spring

A study of force systems through the principles of static mechanics, includes resultants of force systems; analysis of forces acting on members of trusses, frames, and machines; forces due to friction; centroids; and moments of inertia.

Credit: 3 hours - Three lecture hours per week.

Prerequisite(s): Introductory Physics I-PHY116 or University Physics-PHY 216 and Calculus I-MAT 117