Fall 2017 Class Schedule (CRC)

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ENGR 312    Engineering Graphics    3 Units

Prerequisite: None.
Advisory: Completion of MATH 110 or high school geometry with a grade of C or better; and MATH 120 with a grade of C or better.
Course Transferable to UC/CSU
Hours: 36 hours LEC ; 72 hours LAB
Description: Students will learn the graphical tools needed to develop and communicate engineering ideas. They will learn to represent objects in technical drawings (orthographic projection). Students will create drawings using computer aided drafting software (two-dimensional). They will solve civil engineering problems using grade, bearing, scales, topographical maps, and plan and profile views. Students will use three-dimensional solid modeling software to create models of mechanical objects from which they will make drawings. Students will learn the steps in engineering design, and will complete a design project which will culminate in detail and assembly drawings. This course is primarily for Mechanical and Civil Engineering majors.

Schedule: Full Term, Aug 19-Dec 14
TTh       11:15AM-12:05PM LEC B.Saller             CRC MAIN LRC 210           
TTh       12:15PM-02:05PM LAB B.Saller             CRC MAIN LRC 210         15090 

ENGR 400    Introduction to Electrical Circuits and Devices    3 Units

Prerequisite: PHYS 421 with a grade of "C" or better
Course Transferable to UC/CSU
Hours: 54 hours LEC ; 18 hours LAB
Description: This course will provide engineering students with circuit analysis concepts and applications that will be of value in any engineering field as well as a solid foundation for electrical engineering and related majors. The course includes the analysis of circuits with resistors, inductors, capacitors, and independent and dependent voltage and current sources. Many analysis techniques will be applied to DC and AC circuits. Differential equations will be used to find the transient response of circuits. Power calculations will be performed on both DC and AC circuits, including an introduction to three-phase AC power. This course is required for most engineering Bachelors of Science degrees.

Schedule: Full Term, Aug 19-Dec 14
M         05:00PM-07:05PM LEC L.Chow               CRC MAIN SCI 306         14235 
M         05:00PM-07:05PM LEC B.Saller             CRC MAIN SCI 306         14235 Textbook
W         05:00PM-06:05PM LEC L.Chow               CRC MAIN SCI 306         14235 Textbook
W         06:15PM-07:05PM LAB L.Chow               CRC MAIN SCI 306           
W         06:15PM-07:05PM LAB B.Saller             CRC MAIN SCI 306           

ENGR 412    Properties of Materials    4 Units

Prerequisite: CHEM 400 and PHYS 411 with grades of "C" or better
Course Transferable to UC/CSU
Hours: 54 hours LEC ; 54 hours LAB
Description: This is an introductory course on the relationship of the internal structure of materials to their properties. Topics include crystalline structure, imperfections, phases and phase diagrams, steels and non-ferrous alloys, polymers, ceramics, semiconductors, and corrosion. Students will apply the concepts in laboratory activities and will use typical materials testing equipment and analysis techniques. This course is required for CRC's A.S.-Engineering, Civil/Mechanical Engineering option degree, and many university engineering B.S. degrees.

Schedule: Full Term, Aug 19-Dec 14
M         01:30PM-03:35PM LEC B.Saller             CRC MAIN SCI 306         14321 
W         12:30PM-01:20PM LEC B.Saller             CRC MAIN SCI 306         14321 Textbook
ENGR 412 will change to a 4 unit class on June 1, 2017.

W         01:30PM-04:45PM LAB B.Saller             CRC MAIN SCI 306           

ENGR 420    Statics    3 Units

Prerequisite: MATH 401 and PHYS 411 with grades of "C" or better
Course Transferable to UC/CSU
Hours: 54 hours LEC
Description: This course covers analysis of two and three dimensional force systems for bodies in static equilibrium. Vector and scalar analysis methods address forces acting on rigid bodies, trusses, frames, and machines. Students will calculate internal forces in members and will create shear and bending moment diagrams for beams. Friction problems will include slipping vs tipping. Students will learn methods to calculate centroids and moments of inertia for bodies that are combinations of simple geometric shapes. This course is required for most engineering majors. (C-ID ENGR 130)

Schedule: Full Term, Aug 19-Dec 14
TTh       03:30PM-04:50PM LEC B.Saller             CRC MAIN SCI 110         14020 

Fall 2017 Class Schedule

Updated: November 22, 2017