Important Financial Aid Update: While the new 2024–2025 Free Application for Federal Student Aid (FAFSA) is available to complete online now, the Department of Education has been delayed in providing FAFSA information to colleges. The NTC Financial Aid Office is working to prepare financial aid offers for the upcoming summer and fall semesters. Learn More
Provides the learner with knowledge about the internal parts of a computer, the operating characteristics of Digital components, how to do Basic programming and flow-charting, and includes an introduction to Microsoft Word, Microsoft Excel and PowerPoint.
Explores the fundamental principles of architectural design and drafting. Examine topics including: career exploration, sustainable-residential design, industry related practices and procedures, State of Wisconsin building codes, area planning, and sketching application.
Examines proven strategies designed to help learners achieve greater personal, academic, and professional success. Learners will apply personal responsibility thinking and behaviors; self- management, awareness, and motivation strategies; as well as interdependence skills to develop a proactive life plan.
Explores the latest version of Autodesk's AutoCAD program as a 2D design, drafting and visualization tool. Provides learners with skill development starting at an introductory level and progressing to a level in which authentic architectural construction graphics and working drawings including annotations can be developed.
Introduces learners to the format and types of questions given in the math, chemistry, and anatomy & physiology portions of the HESI test. Sample questions and possible study materials will be discussed. Upon completion of the course, learners will have a greater understanding of the test. Additionally, course completion will assist in determining if learners feel ready to test, or would like to pursue additional study opportunities prior to testing.
Provides instruction in the preparation of working drawings for a bi-level residence on a city lot to meet local and state codes. Learners will prepare drawings for bidding as produced in an architectural or custom design office. Coursework will include the preparation of Site plans, floor plans, foundation plans, elevations, sections, elevations, framing plans and finish schedules. Special emphasis is placed on utilizing high efficiency approaches to building construction.
Explores the methods of calculating building loads and subsequent analysis of their effect on structural members. Examines topics including: the design of floor joists, headers, basement beams, tall walls and columns in residential and light commercial construction. Conventional lumber, manufactured lumber and steel beams and columns will be sized by standard calculations and manufacture/third party computer software.
Introduces the learner to the application of principles of mechanical systems, which includes: electrical, plumbing, heating, ventilation and air conditioning. Heat loss calculations will be completed in both long-hand and computer based. A systems approach to environmentally responsible and sustainable homes will be addressed and studied.
Introduces the learner to the fundamental materials and methods of residential construction. Explores foundations, framing, roofing, interior and exterior wall coverings, trim, stairs and insulation. Explores innovative design techniques, energy efficient construction practices, energy conservation methods and alternative energy systems through classroom discussion and lab activities. Analyzes code and application pertaining to methods and materials.
Introduces the learner to Building Information Modeling (BIM) by using the latest version of Autodesk's Revit. Revit is a computer modeling program that allows for intelligent, 3D and parametric object-based design. Learners explore the program by the use of tutorials and exercises that start at an introductory level proceeding throughout the semester to create a complete set of residential construction documents.
Provides the learner with the skills and knowledge for troubleshooting basic solid-state devices and circuits. The construction, identification, and operating characteristics of solid-state devices are investigated. The learner builds test circuits, gathers and analyzes data, and follows safety procedures. Methods for locating defective components are applied. The replacement of printed circuit board components is performed. Also examined is the effect of temperature on the operation of solid-state devices.
Provides the opportunity for students to learn about power systems and variable speed drives (VSD's). Topics include electricity, electronics, power transmissions, motor operations, AC and DC motor drives, servo and stepper drives, peripherals and communication. Apprentices will also explore closed loop control, feedback devices, and drive maintenance and the troubleshooting of VSD's. Course includes lab/shop and classroom lecture-lab hours. This course will also acquaint the apprentice with the interpretation of "Prints" (blueprints) and other engineering and manufacturing documentation. The primary focus of the course will be on the basics of prints and how they are used to convey information to technicians. Application of electrical prints from industrial settings will be studied.
Develops learner's ability to design and create construction drawings for a one-story residence including: foundation and floor plans, wall and stair sections and elevations (AutoCAD 2D software will be utilized). Design and analysis of joist, stair, and roof design is also covered.