Fundamental drafting techniques including sketching, orthographic projection and dimensioning. Development of detailed drawings (electrical, electronic, and mechanical) for the fabrication of individual projects. Sheet metal shop practices; use of hand tools; measurement and layout techniques. Printed circuit board design and fabrication. Machine tools and machine shop operations.
Applied mathematics designed to develop the ability to solve technical problems. Practical application of algebra, geometry, and trigonometry to basic problems in the applied sciences, including the study of alternating current circuitry with emphasis on periodic functions, vector analysis, logarithms, and exponential functions.
A project-oriented, hands-on course to introduce students to the practices and methodologies used in Engineering and Technology. Areas of focus are electronics, mechanical construction/fabrication and technical mathematics.
An introductory course in the fundamental science of materials used by engineers. Emphasis on structure and properties. Some processing and applications of materials is also covered. Finally, a strategy is developed for the selection and use of these materials in engineering design. UC, CSU transferable.
Principles of visually communicating engineering designs. Topics include technical sketching, technical drawing, engineering graphics and design; 3-D visualization with orthographic projection; dimensioning and tolerancing practices; computer aided drafting/design (CAD) software; graphical analytical methods of solutions to three-dimensional problems. Assignments develop sketching and 2-D and 3-D CAD skills. The use of CAD software is an integral part of this course.
An introduction to the construction and measurement of electrical circuits exercising DC, transient, and sinusoidal steady-state (AC) conditions. Use of test and measurement instruments, including multimeters, oscilloscopes, power supplies, and function generators. Introduction to component value tolerance and non-ideal aspects of laboratory instruments. Use of circuit simulation software. Interpretation of measured and simulated data based on principles of circuit analysis.
Introduction to circuit analysis. Determination of the natural, forced and complete responses of zero, first and second-order networks. Standard circuit-analysis techniques including Kirchhoff's Laws, mesh and nodal analysis, Thevenin and Norton's Theorems, generalized impedance and admittance techniques and phasor methods.
Introduction to team-oriented engineering design, problem solving processes, and the use of computers in the solution of engineering problems, including commercial spreadsheet applications and analysis/graphics applications. Emphasis on technical communication, teamwork, engineering design and problem solving methodologies. Multiple hands-on design projects.
The history and development of engineering as a profession. Engineering disciplines, job functions, educational requirements, transfer school information, academic success strategies, workplace skills, engineering ethics, sustainability principles applied to engineering, current and projected activities in the various branches of engineering.
Building Information Modeling (BIM) - The essential features and functionality of Autodesk Revit structural tools from building and schematic design through construction documentation. Topics include 3D modeling, steel and concrete detail design for fabrication, parametric building design, scheduling for materials and quantity takeoff.