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Course Criteria
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3.00 Credits
An introductory course in the fundamentals of classical thermodynamics covering such topics as: the First Law of Thermodynamics, Heat Engines, the Second Law of Thermodynamics, the Internal Combustion Engine, Gas Turbines, Steam Power Generation, the Rankin Cycle, and Heat Transfer. Prerequisite: PHY 02 or 12, MTH 15, or permission of the instructor. Instructional Support Fee applies3 credits Spring
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3.00 Credits
IStudies in the theory of semiconductor diodes, bipolar and field effect transistors, including biasing, classes of amplified operation, methods of analysis and design to include Miller's theorem, hybrid parameters and frequency effects. Prerequisite: ETK 20. Three class hours and three laboratory hours a week .Instructional Support Fee applies4 credits Fall
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3.00 Credits
IIThis course deals with the theory and use of integrated circuits involving both negative and positive feedback. Operational amplifier applications such as voltage controlled oscillators, active filters, mixing modulation, comparators and special amplifiers are discussed. Prerequisite: ETK 75. Three class hours and three laboratory hours a week. Instructional Support Fee applies4 credits Spring
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3.00 Credits
ScienceA study of the physical, mechanical, and chemical properties of engineering materials. The course places particular emphasis on the interdependency of atomic structure, microstructure, material phase relationships, and solid state reactions to each other and to the modification of these properties. It investigates the use of metals, plastics and advanced materials in economic and reliable design. The laboratory includes metallographic examination using light microscopy and the study of material science principles and treatments of metals. Prerequisite: one year of laboratory science in high school, or one semester of college laboratory engineering or science, or permission of the instructor. Three class hours and two laboratory hours a week. Instructional Support Fee applies4 credits Spring
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3.00 Credits
DesignDesign principles of machine elements are considered and calculations made for determination of sizes and shapes. The factors governing the selection of materials and machine elements are studied. Typical machine elements are clutches, brakes, belts, chains, fasteners, bearings, shafts, lubrications, power screws and gears. Prerequisite: ETK 54. Three class hours a week. Instructional Support Fee applies3 credits Spring
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3.00 Credits
ProjectsThis course guides the student in the design and development of a useful technical project. The student develops a functioning design solution and generates all necessary support drawings and documentation. Prerequisite: Prior approval of the instructor. 3 credits Spring
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3.00 Credits
ProjectsThis capstone course allows students to use the engineering skills theyhave developed to solve an actual engineering design project. Students work onsite with a company's engineering department, participating in all aspects of the design process, from initial identification of the design problem through the implementation of the design solution. Students use a variety of design, evaluation and manufacturing tools to complete this process. Design projects cross disciplines and cover a variety of engineering subject areas, including Civil, Electrical, Environmental, Manufacturing, and Mechanical. Prerequisite: 30+ credits completed in major or prior approval by the instructor. Two class hours and three laboratory hours per week .3 credits Spring
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3.00 Credits
ManagementThis course will discuss the legal responsibilities placed on the fire service by the Superfund Amendment and Reauthorization Act of 1986 (SARA). Topics will focus on the role of the fire service at hazardous material incidents which outline the need for site management and control, hazard and risk analysis, information management and resource control, methods of product control, confinement, and containment. Fire fighter safety principles in regards to training, personal protective clothing and equipment, decontamination procedures and written standard operating procedures will also be discussed. Prerequisite: SCI 16. Three class hours a week. 3 credits Fall, Spring; evening/Weekend only
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3.00 Credits
StrategyTechniques and procedures of firefighting with emphasis on the fire officer's role at the fire scene. Emphasis is placed on today' s incident command system for successful control of firefighting personnel and equipment. Topics of discussion will include: methods of extinguishing fires in different types of buildings, life safety procedures, rekindling prevention, and overall fire ground objectives under the control of the incident commander . Prerequisite : FIR 11, FIR 13, FIR 59. Three class hours a wee k.3 credits Fall, Spring; evening/Weekend only
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3.00 Credits
WritingReporting procedures will be presented with emphasis on the use of microcomputers. Word processing will be utilized in the preparation of reports such as NFIRS, investigative and narratives. In addition, business letter and memo writing will be covered. Prerequisite: ENG 11. Three class hours a week. 3 credits Fall, Spring; evening/Weekend only
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