Total Hours Needed to Graduate:
60 Hours

Select Nine Credits From the Following:

COURSE NUMBER
COURSE TITLE
CREDIT HOURS
CAD 2260
Unigraphics
3

Teaches the fundamentals of parametric modeling, using sketches, drawings or physical objects. Design intent, manufacturing method and material are all stressed as inputs into the design. Drawings and assemblies are introduced. 30 hours of lecture and 30 hours of lab are required.

Prerequisite(s):
CAD 1110 OR EGR 1010

Concurrent requisite(s):
CAD 2260L

CAD 2270
Unigraphics Intermediate
3

Assemblies and drawings are fully explored for a variety of manufacturing applications. Uses projects and large assemblies to teach complex modeling techniques. 30 hours of lecture and 30 hours of lab are required.

Prerequisite(s):
CAD 2260

Concurrent requisite(s):
CAD 2270L

CAD 2310
Pro/ENGINEER
3

Teaches the fundamentals of parametric modeling, using sketches, drawings or physical objects. Design intent, manufacturing method and material are all stressed as inputs into the design. Drawings and assemblies are introduced. 30 hours of lecture and 30 hours of lab are required.

Prerequisite(s):
CAD 1110 OR EGR 1010

Concurrent requisite(s):
CAD 2310L

CAD 2320
Pro/ENGINEER Intermediate
3

Assemblies and drawings are fully explored for a variety of manufacturing applications. Uses projects and large assemblies to teach complex modeling techniques. 30 hours of lecture and 30 hours of lab are required.

Prerequisite(s):
CAD 2310

Concurrent requisite(s):
CAD 2320L

CAD 2360
SolidWorks
3

Teaches the fundamentals of parametric modeling, using sketches, drawings or physical objects. Design intent, manufacturing method and material are all stressed as inputs into the design. Drawings and assemblies are introduced. 30 hours of lecture and 30 hours of lab are required.

Prerequisite(s):
CAD 1110 OR EGR 1010

Concurrent requisite(s):
CAD 2360L

CAD 2370
SolidWorks Intermediate
3

Assemblies and drawings are fully explored for a variety of manufacturing applications. Uses projects and large assemblies to teach complex modeling techniques. 30 hours of lecture and 30 hours of lab are required.

Prerequisite(s):
CAD 2360

Concurrent requisite(s):
CAD 2370L

CIS 1050
Electronic Spreadsheets
1

Introduces the use of Excel spreadsheets for accounting applications, worksheets, and organizing various documents used in preparing various accounting financial information documents and reports.

CNC 1110
Basic Gauges and Measurements
3

Provides students with an introduction to measurement instruments used in manufacturing settings. Addresses Scales, Calipers, Micrometers, Johansson Blocks, Gauges, and Angular Measurement.

CNC 1310
Machining Theory and Methods
4

Provides students with an introduction to manual mill and lathe practices used in manufacturing settings. Addresses basic machining theory and introduction to the use of common tools and techniques in manufacturing. 45 hours of lecture and 30 hours of lab are required.

Prerequisite(s):
CNC 1110

Concurrent requisite(s):
CNC 1310L

CNC 2020
Intermediate Mastercam
3

Explores additional Mastercam concepts and functions, with focus on lathe work and surfacing.

CNC 2030
Advanced Mastercam
3

Continues the study of Mastercam with multiaxis machining programming. Includes 5-axis and 4-axis projects.

EET 1610
Introduction to Robotics
3

Provides an overview of industrial robots, mobile robots, control, actuators, and sensors. Basic robotic mechanics and operations are introduced. Students gain experience with robot programming for a variety of tasks through simulations and hardware/software interfacing. 30 hours of lecture and 30 hours of lab are required.

Prerequisite(s):
MTH 1110

Concurrent requisite(s):
EET 1610L

EET 1620
Advanced Robotics
3

Continues the study of industrial and mobile robots and their applications. Topics covered include motion control devices, conveyors and parts feeder mechanisms, use of vision systems as well as other automation equipment used in manufacturing. 30 hours of lecture and 30 hours of lab are required.

EGR 1010A
Engineering Graphics
2

Surveys the use of drafting instruments and computers to generate the necessary geometry for design, analysis, and manufacturing. Provides knowledge of geometric dimension and tolerance, industrial blueprint reading and the use of precision measurement tools through lecture and hands-on lab applications. 15 hours of lecture and 30 hours of lab are required.

Concurrent requisite(s):
EGR 1010L

MTH 1310
Pre-Calculus
5

Examines functions, their inverses, graphs, and properties. Students solve equations and real-world problems involving polynomial, rational, exponential, logarithmic, and trigonometric functions. Topics also addressed are: conic sections, complex numbers, vectors, sequences and series. Limits are introduced.

Prerequisite(s):
MTH 1110 OR MTH 1210

WELD 1110
Cutting and Oxy-fuel Welding
4

Provides students with the opportunity to safely use equipment to perform Oxy-Acetylene Welding and Cutting (OAW) (OFC-A), and Plasma Arc Cutting (PAC) to cut metal and produce quality welds. Identify various joint fit-ups used in welding pipe and demonstrate various uses of pipe welding/cutting with PAC, OFC-A, with 1G, 2G, 5G, 6G positions. 15 hours of lecture and 90 hours of lab are required.

Corequisite(s):
WELD 1010

Concurrent requisite(s):
WELD 1110L

WELD 1160
Gas Metal Arc Welding
4

Provides students with the opportunity to safely use equipment to perform Gas Metal Arc Welding (GMAW/MIG), and Flux Cored Arc Welding (FCAW) to produce quality welds. 15 hours of lecture and 90 hours of lab are required.

Concurrent requisite(s):
WELD 1160L

WELD 1260
Shielded Metal Arc Welding
4

Provides students with the opportunity to safely use equipment to perform Shielded Metal Arc Welding (SMAW) to produce quality welds. Demonstrate various uses of structural steel and pipe welding in 1G, 2G, 5G, and 6G positions. 15 hours of lecture and 90 hours of lab are required.

Corequisite(s):
WELD 1010

Concurrent requisite(s):
WELD 1260

WELD 2110
Advanced Welding and Cutting Processes
3

Examines specialty welding processes and techniques including pipe welding and thermal cutting as well as issues of sustainability and other environmental aspects. 15 hours of lecture and 60 hours of lab are required.

Corequisite(s):
WELD 1010

Concurrent requisite(s):
WELD 2110L

WELD 2210
Welding Fabrication Practicum I
3

Introduces techniques in welding fabrication presenting an opportunity for students to create metal structures from design documents and specifications along with jigs, fixtures, rigging techniques that will be covered. 15 hours of lecture and 60 hours of lab are required.

Corequisite(s):
WELD 1010

WELD 2970
Welding Certification III and IV FCAW and GTAW Processes
1

Provides, within the first 15 hours of the 30 hour lab, students the opportunity to pass a Welder Qualification test in accordance to the AWS standards for FCAW (Flux Core Arc Welding) D1.1 structural welding code with 3/8 plate mild steel in a 3-G 22.5 degree beveled material to conformed criteria to a bend test pass or fail outcome. The second 15 hours of the 30 hour lab will be to comply to the D1.2 Structural welding code / Aluminum parameters but with the GTAW (Gas Tungsten Arc Welding) process. 30 hours of lab are required.

Corequisite(s):
WELD 1010

General Education Requirements

15 Hours
COURSE NUMBER
COURSE TITLE
CREDIT HOURS
Featured Alumni

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- Marcus Hosmer, Field Service Technician AAS Photonics and Laser Technology
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