An introduction to geomatics and the various engineering technology disciplines, the engineering approach to problem solving, and the design process. Projects emphasize the importance of teamwork, written & oral communication skills, as well as ethical responsibilities.

Fundamentals of soldering, desoldering, and quality inspection of printed circuit boards. (3P)

Introduction to principles and fundamentals of drafting using both manual drawing techniques and computer-aided drafting (CAD) applications. Repeatable: up to 3 credits. Crosslist: DRFT 109 and C E 109. (3+2P)

Introduction to SolidWorks, a 3-D modeling software. The foundation for designing mechanical parts and assemblies. (2+3P)

The use of spreadsheet software in the field of engineering technology.

Renewable energy systems, including topics in thermal-solar photovoltaic, wind, geothermal systems, and other current topics. Theory, practical applications, safety considerations and the economics of alternative renewable energy systems compared to conventional systems.

Introduction to drafting in the field of Civil Engineering. Drawings, projects, and terminologies related to topographic mapping, contour drawings, plan, and profiles as street/highway layout. Repeatable: up to 3 credits. (2+2P)

Introduction to networking basics, including computer hardware and software, electricity, networking terminology, protocols, LANs, WANs, OSI model, IP addressing, and design and documentation of basic network and structure cabling.

Blueprint reading, specifications, and introduction to materials used in construction.

Introduction to a computer network operating system. (3+1P).

This course introduces information security terminology, historical evolution of digital security, types of PC and network system vulnerabilities and types of information loss. In addition, methods of information protection and integrity, intrusion detection, and recovery of data are introduced.

Fundamental review of the Windows operating system including installation and upgrades as well as managing applications, files, folders, devices and maintenance.

The use of truth tables, Boolean equations, and diagrams to define, simplify, and implement logic-valued functions. Prerequisite(s)e: A grade of C- or better in MATH 1220G or higher. (1+2P).

Application of Ohm's law, Kirchhoff's laws, Thevenin's, and Norton's theorems to the analysis of DC passive circuits. Embedded Lab. (2+2P).

DC applied circuits lab. (2P).

Application of circuit laws and theorems to analysis of AC passive circuits. Resonant circuit, polyphase circuit and magnetic circuit topics are introduced. Embedded Lab. (2+2P).

Application of Ohm's law, Kirchhoff's laws, and Thevenin's theorems to the analysis of AC and DC passive circuits. Electronic circuit topics are introduced. Embedded lab. Repeatable: up to 4 credits. (3+2P)

Applied Circuits Lab. (2P)

Directed study or project. Repeatable: for a maximum of 6 credits.

Intermediate 3-D modeling. Applied modeling of techniques to prepare for SolidWorks certification (CSWA).

Introduction to manufacturing and processing, including: casting, forming, and machining. Emphasis on creating products with the appropriate techniques. Crosslist: I E 217.

Hands-on laboratory in machine shop to apply topics from E T 217, including: casting, forming, and machining. (3P)

Internship requiring an approved number of hours of varied and progressive experience in the field of study. The scope and other requirements of the internship are stated in an individualized syllabus and through a memorandum of understanding between the faculty mentor and the industry partner. Repeatable: up to 6 credits.

Fundamental topics of applied statics, including force system analysis, equilibrium, free body diagrams, methods of joints and sections, distributed loads, friction, centroids, area moments, and shear and moment diagrams.

The foundation for understanding particles and bodies in motion and the forces involved, including: projectile motion, Newton's Laws of Motion, conservation of energy, and impulse and momentum.

Solid-state devices including diodes, bipolar-transistors, and field effect transistors. Use of these devices in rectifier circuits, small signal and power amplifiers. (3+3P)

Introduction to a computer network operating system. (3+3P)

Fundamentals of aggregates, Portland cement, and asphalt used in design and construction. (2+2P)

Operating systems applications and interfacing with an introduction to systems administration. Topics include Shell Programming, Programming Tools, Database Management, System Backups, Security, Setup and Maintenance of Linux Servers.

Introduction to a computer network operating system. (3+1P)

An introduction to computer programming concepts as applied to engineering technology. Includes basic logic design, algorithm development, debugging and documentation. History and use of computers and their impact on society. (2+2P)

Operational amplifiers, positive and negative feedback, computer aided circuit analysis. In addition circuits include integrator, differentiators and phase shift networks. (3+3P).

Explores advanced networking communications to include Wireless Networking, Virtualization and Cloud Computing, Subnets and VLANs, Network Risk Management, Network Security Design, Network Performance, and WANS. The course covers the examination objectives and detailed preparation for students to take the CompTIA Network+ exam. (2+4P)

Antennas, transmission devices, A-M and F-M transmission and detection, pulse systems, microwave systems. (2+2P)

Introduction to front-end web development including webpage design, structure, layout, positioning, responsiveness, and foundational layers of how the web works. Video, audio, and other digital presentation tools are covered.

Applications of digital integrated circuits, multiplexers, counters, arithmetic circuits, and microprocessors. (3+3P).

Installing, configuring, troubleshooting, and maintaining personal computer hardware components. (3+1P)

Installing, configuring, troubleshooting, and maintaining personal computer operating systems. (3+1P)

The course covers detailed analysis of network security, including security operations and policy adherence; internal and external vulnerabilities; methods of identifying, controlling and managing system access, and the protection of system information.

The course covers the examination objectives and detailed preparation for a certification in information security.

This course provides an introduction to wireless networking and communications. Some of the topics covered are protocols, transmission methods, and IEEE 802.11 standards. Wireless LAN (WLAN) fundamentals, devices, and security, cellular telephony, broadband, and satellite communications. (3+1P)

Introduction to computer forensics and investigative fundamentals. Topics include understanding computer forensic and investigation law and requirements, processing crime and incident scenes, and the extraction, preservation, analysis and presentation of computer-related evidence.