EDG 1210 - Survey of Engineering Graphics
2 Class Hours 0 Laboratory Hours 2 Credit Hours
This course introduces the students to a broad range of engineering graphics topics. Freehand
sketching, and computer-aided design (CAD) assignments cover theory and application in such
areas as fundamentals of engineering graphics, drafting technique, lettering, orthographic
projection, sectional views, pictorial drawings, dimensioning, and industry practices.
EDG 1211 - Engineering Graphics I
3 Class Hours 0 Laboratory Hours 3 Credit Hours
An introduction to engineering graphics in mechanical engineering and manufacturing with an
emphasis on using computer-aided design (CAD) to produce finished engineering drawings
according to industry and ANSI standards. Topics include fundamentals of engineering graphics,
orthographic projection, sectional views, pictorial drawings, dimensioning, industry practices,
file management, geometric construction, basic 3D coordinate geometry, surface models,
parametric solid modeling, and drawing composition.
EDG 1212 - Engineering Graphics II
4 Class Hours 0 Laboratory Hours 4 Credit Hours
Prerequisite: EDG 1211
A continuation of Engineering Graphics I, covering advanced concepts of 3D geometry,
parametric solid modeling, boundary representation of solids, databases for manufacturing and
inspection, an introduction to geometric dimensioning and tolerancing according to the American
National Standards Institute.
EDG 3112 - Advanced Engineering Graphics
3 Class Hours 0 Laboratory Hours 3 Credit Hours
Prerequisite: EDG 1212
Advanced 3D CAD features and solid modeling techniques are covered including patterning,
configurations, library features, sketch blocks, assemblies of parts, multi-body parts, and 3D
printing.
EDG 4111 - Surface Modeling
3 Class Hours 0 Laboratory Hours 3 Credit Hours
Prerequisite: EDG 1212
This course covers surface modeling in 3D CAD, combining surface modeling, solid modeling
and creating master models. The student is introduced to complex solid modeling, free form
surface modeling and surface analysis. Splines, curves and three-dimensional sketches are used
in conjunction with surfacing techniques to create shapes common to the automotive or aircraft
industry. The shapes are analyzed for surface continuity to optimize designs.
EDG 4222 - CAD Customization and Standards
3 Class Hours 0 Laboratory Hours 3 Credit Hours
Prerequisite: EDG 1212
This course covers topics in customizing CAD software and creating company standards. Topics
include identifying company requirements, customizing the user interface, and writing company
standards for the use of the software.
EDG 4224 - Engineering Design Graphics for Custom Manufacturing
2 Class Hours 2 Laboratory Hours 3 Credit Hours
Prerequisite: EDG 1212, MET 1321, and MET 2322
Advanced 3D CAD features are covered including: sheet metal, weldments, and surface
modeling. Students will design and fabricate various metallic parts using an English Wheel, 3Axis Bead Roller, and Shrinker/Stretcher machines.
ENGT 2124 - Statics with Applications
3 Class Hours 0 Laboratory Hours 3 Credit Hours
Prerequisite: MATH 1190, and PHYS 1111/1111L or PHYS 2211/2211L
2D and 3D forces and moments acting on components, machine parts, frames, and structures are
analyzed. Static rigid body force systems in equilibrium, including friction applications are
included. Distributed load calculations using centroids and centers of gravity located by
composite and CAD methods are practiced. An introduction to calculating the moments of inertia
of machines and structures is also included. Real 2D and 3D design applications are emphasized.
Assumptions considering safety, economics, quality and function are discussed. Not equivalent
to ENGR 2214.
ENGT 3124 - Strength of Materials with Applications
3 Class Hours 0 Laboratory Hours 3 Credit Hours
Prerequisite: ENGR 2214 or ENGT 2124
A study of stress and strain of deformable bodies in tension, compression, bending, and torsion.
Topics include: axial stress and strain, thermal stress and strain, statically indeterminate systems,
torsional stress and strain, power transmission in shafts, bending stresses in beams, beam
deflections, combined stresses, elastic buckling in columns, and finite element analysis methods.
ENGT 3124 and ENGT 3124L should be taken concurrently, but if a student has credit for one,
the other can be taken alone. Not equivalent to ENGR 3131.
ENGT 3124L - Strength of Materials Lab
0 Class Hours 3 Laboratory Hours 1 Credit Hours
Corequisite: ENGT 3124
The application of laboratory testing and analysis of results to determine the mechanical
behavior of materials under load.
ENGR 2214 - Engineering Mechanics - Statics
3 Class Hours 0 Laboratory Hours 3 Credit Hours
Prerequisite: PHYS 2211, 2211L (or concurrent enrollment).
Study of force vectors, equilibrium of particles, equilibrium of rigid bodies in two and three
dimensions; trusses, friction, centroids and moments of inertia.
ENGR 3122 - Engineering Mechanics - Dynamics
3 Class Hours 0 Laboratory Hours 3 Credit Hours
Prerequisite: ENGR 2214, MATH 2202
A study of the mechanics of particles and rigid bodies. Topics covered include: kinematics and
kinetics of particles; work and kinetic energy; impulse and momentum; rigid body motions;
relative motion; and moving coordinate systems.
ENGR 3131 - Strength of Materials
3 Class Hours 0 Laboratory Hours 3 Credit Hours
Prerequisite: : ENGR 2214 with a grade of minimum C and Engineering Standing
The study and mathematical modeling of the mechanical behavior of materials under load.
Emphasis will be on the elastic conditions of equilibrium, compatibility and material behavior.
Includes study of stress and strain in columns, connectors, beams, eccentrically-loaded members,
as well as introduction to statically indeterminate members.
ENGR 3132 - Strength of Materials Lab
0 Class Hours 3 Laboratory Hours 1 Credit Hours
Prerequisite: Co-registration or prior completion of ENGR 3131
The study and performance of laboratory testing and analysis techniques used in the
determination of the mechanical behavior of materials under load.