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Course Criteria
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3.00 Credits
Hours: 3 Course ID: 000597 The student participates in an introductory study of mining methods, operations, and procedures. Miners' rights, work environments, health and safety standards, reclamation procedures, transportation and communication, emergencies and procedures, mine gases and instruments, electrical hazards, and accident prevention programs are among the topics covered. Lecture: 3 hours. Component: Lecture
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1.00 Credits
Hours: 1 Course ID: 005267 Applies the principles and policies of mining methods, operation, and procedures in a controlled laboratory environment. Focuses on the safety aspects of roof, rib, ventilation, dust, noise, fire, transportation communication, mine gases, electrical, hazards of task assigned, emergencies, escape, evacuation barricading, blasting, highwalls, spoil banks, ramps, berm, water impoundments, reclamation, equipment machines, loading, dumping, grading, tramming, cutting, positioning, and treatment of the sick and injured. Laboratory: 1 credit (30 contact hours). Corequisite: ET 155. Component: Laboratory
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1.00 Credits
Hours: 1 Course ID: 005268 Applies the principles and policies of mining methods, operation, and procedures. Focuses on the safety aspects of operating equipment and mining machines including loading, dumping, grading, tramming, cutting positioning, and other operations. Laboratory: 1 credit (30 contact hours). Corequisite: ET 155 or Consent of Instructor. Component: Laboratory
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3.00 Credits
Hours: 3 Course ID: 005206 Applies principles and procedures to identify and treat life threatening conditions. Lecture: 3 credits (45 contact hours). Component: Lecture
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4.00 Credits
Hours: 4 Course ID: 000603 Static equilibrium involving forces, moments, couples, and equivalent systems are studied. Stresses, strains and deflections associated with trusses, frames, beams, columns, and joints are explored. These devices are subjected to various loadings and environments, and are made of standard construction materials. Lecture: 3 hours; Laboratory: 3 hours. Prerequisite: MT 150 and MT 155 or MA 110 or consent of instructor. Component: Laboratory, Lecture
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3.00 Credits
Hours: 3 Course ID: 000608 An introduction to thermodynamic laws and their application to devices operating on the basis of thermodynamic principles. Commonly used cycles and fluids are identified. Lecture: 3 hours. Prerequisite: PHY 211 or consent of instructor. Component: Lecture
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3.00 Credits
Hours: 3 Course ID: 000623 Includes maintenance of the personal computer with an emphasis on installation, upgrading, and configuration of the operating system. Covers memory management, boot sequences, printing subsystem, application software and networking with troubleshooting as a main focal point including viruses. When combined with ET 234, this course will help prepare students to take CompTIA A+ certification tests. Prerequisite: [(Computer literacy course or demonstrate competency) and ET 234] or consent of instructor. Lecture: 2 credits (30 contact hours). Laboratory: 1 credit (30 contact hours). Component: Laboratory, Lecture
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3.00 Credits
Hours: 3 Course ID: 000521 Includes maintenance of the personal computer with an emphasis on installation, upgrading, and configuration of computer hardware. Covers network and Internet access, internal addressing, architecture, interrupts complete PC construction and basic troubleshooting. When combined with ET 232, this course will help prepare students to take CompTIA A+ certification tests. Prerequisite: Computer literacy course or IC3 or consent of instructor. Lecture: 2 credits (30 contact hours). Lab: 1 credit (30 contact hours). Component: Laboratory, Lecture
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3.00 Credits
Hours: 3 Course ID: 000640 Introduction to methods used in interior electric power distribution for commercial and industrial loads of heat, light and power, and requirements of National Electric Code. Lecture: 3 hours. Prerequisite: ET 110. Component: Lecture
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4.00 Credits
Hours: 4 Course ID: 000644 Theory and utilization of electrical motors and generators, including AC and DC motors and drives are studied. Theory and utilization of limit switches, solenoids, relays, contactors, and solid state devices in control circuits are included. Digital and analog control techniques, ladder logic, and programming techniques are applied to industrial and manufacturing processes. Lecture: 3 hours; Laboratory: 2 hours. Prerequisite: Consent of instructor. Component: Laboratory, Lecture
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