Catalog of Courses
Browse below to find courses being taught at EMCC during current and upcoming semesters. Courses are listed in alphanumeric order based on course subject prefix and number. You may click on the subject listings in the left filter menu to narrow results by subject. You may search for current class offerings available for enrollment by clicking on the link under each course. Click here to view the official current and archived book versions of the EMCC Academic Catalog.
Learning culture of engineering, engineering use of computer tools, and computer modeling as applied to engineering analysis and design.
Arizona Shared Unique Number SUN# EGR 1102 - In combination with: ECE103 Prerequisites: A grade of C or better in MAT15+ or higher-level mathematics course, or an appropriate District placement above MAT15+, or permission of Instructor or Division or Department Chair.
EGR1102 Fundamentals of the design process: engineering modeling, communication and problem-solving skills in a team environment. Emphasis on process-based improvements to the design process. Introduction to engineering as a profession.
Student may receive credit for only one of the following: ECE103 or ECE103EP. Prerequisites: A grade of C or better in ECE102 or permission of Instructor or Division or Department Chair.
EGR1102 Use MATLAB to solve engineering problems. An overview of programming, including matrices, structures, strings, functions, control flow, file management, data analysis, graphing capabilities, and mathematical calculations.
Prerequisites: C in [(MAT150 or MAT151 or MAT152 or MAT155 or MAT156) and MAT182] or MAT187 or higher level mathematics course or permission of Instructor or Division or Department Chair.Modeling of static equilibrium in particles and rigid bodies through analysis of forces and mechanical properties.
Prerequisites: A grade of C or better in PHY115 or PHY121 or permission of Instructor or Division or Department Chair. Corequisites: MAT230 or MAT231 or permission of Instructor or Division or Department Chair.Modeling of dynamic motion in particles and rigid bodies through kinetics and kinematics. Work and energy principles; impulse and momentum principles; planar kinematics; equations of motion; conservation of energy and momentum.
A grade of C or better required in all Prerequisites. Prerequisites: ECE211 and PHY115 or PHY121 or permission of Instructor or Division/Dept Chair. Prerequisites or Corequisites: MAT240 or MAT241 or permission of Instructor or Division/Dept Chair.Various types of energy and their conversion to useable energy such as electrical power. How generated electrical power is transmitted and distributed to the point of use. Prerequisites: None.
Theory, construction and application of basic power plant mechanical components. Basic concepts of electrical fundamentals and electronics discussed. Prerequisites: None.
Principles, properties, and safe handling requirements of lubricants. Lubrication of bearings, lubrication systems, and system components. Oil settling systems. Construction, operation, and maintenance of oil purifiers. Terminology, identification and inspection of the component parts of a drive and gear system. Application, inspection, maintenance, and failure modes of plant bearings. Design and operation of sliding and anti-friction bearings and seals. Prerequisites: None.
Functional components of turbines, including parts, steam properties and maintenance of oil and hydraulic systems. Heat exchanger theory, including types, operations, and maintenance of heat transfer systems. Operational principles of pneumatic and hydraulic valve actuators, including modulation control terminology and inspection testing. Prerequisites: None.
Hydraulic and pneumatic safety, physical concepts, and fluid laws. Hydraulic and pneumatic system components and operation. Troubleshooting procedures of hydraulic and pneumatic systems. Mechanical component types and characteristics, common failure mechanisms, and operating principles of plant components. Prerequisites: None.
Components and function of reactor coolant, volume control, safety injection, and nuclear sampling systems. Function and operation of main steam and turbine systems, main and auxiliary feedwater systems, pressurizer, control rod drive, and recirculation systems. Operation and function of steam and heater drain systems. Reactor plant safety concepts.
Prerequisites: A grade of C or better in PPT120 and PPT121, or permission of Program Director.Advanced plant systems. Water, electrical and cooling systems. Safe shutdown cooling water system. Waste drain system. Fuel handling and storage systems. Fuel pool cooling and cleanup. Purpose and operation of radioactive waste management. Service air and gas systems. Ventilation and fire protection systems. Containment, Containment Spray, Emergency Core Cooling, Emergency Power, Environmental Monitoring, Off-gas, Post-accident, Radiation Monitoring, Residual Heat Removal, and Suppression Pool systems.
Prerequisites: A grade of C or better in PPT120 and PPT121, or permission of Program Director.Rotary, reciprocating and centrifugal pump operation. Positive displacement and metering pump operation. Diaphragm pulsafeeder operation. Disassembly, inspection and reassembly of radially and axially split centrifugal pumps. Troubleshooting and lab safety. Prerequisites: None.
Basic nuclear reactor theory to include reactor chemistry, water chemistry, radiation detection and protection principles, and reactor plant materials.
Prerequisites: A grade of C or better in PPT120 or permission of Program Director.Electrical component types and characteristics, such as circuit breakers and fuses, instrumentation schematics, protective relaying, and inverters. In-depth reading and troubleshooting of electrical engineering and vendor prints. Operation and control of emergency power systems. Diesel Generators will also be covered.
Prerequisites: A grade of C or better in (ELC119 and ELC120) or permission of Program Director.