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Course Criteria
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3.00 Credits
(3 credits) Involves instruction in fundamentals of event-driven programming using Visual Basic. Emphasizes program construction, algorithm development, coding, debugging, and documentation of graphical user interface applications. Prerequisite: Recommended ITP 100. Lecture: 3 hours per week.
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3.00 Credits
(3 credits) Entails instruction in fundamentals of object-oriented programming using Java. Emphasizes program construction, algorithm development, coding, debugging, and documentation of console and graphical user interface applications. Prerequisite: Recommended IPT 100 or ITP 102. Lecture: 3 hours per week.
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3.00 Credits
(3 credits) Provides instruction in fundamentals of internet application design, development, and deployment using client side scripting language(s). Prerequisites: Recommended ITP 100, ITD 110 and a programming language or equivalent experience. Lecture: 3 hours per week.
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3.00 Credits
(3 credits) Encompasses instruction in the application of advanced eventdriven techniques to application development. Emphasizes database connectivity and advanced controls using Visual Basic. Prerequisite: ITP 110. Lecture: 3 hours per week.
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3.00 Credits
(3 credits) Imparts instruction in application of advanced object-oriented techniques to application development using Java. Emphasizes database connectivity, inner classes, collection classes, networking, and threads. Prerequisite: Recommended ITP 120. Lecture: 3 hours per week.
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3.00 Credits
(3 credits) Focuses on application of information technologies (IT) to system life cycle methodology, systems analysis, systems design, and system implementation practices. Covers methodologies related to identification of information requirements, feasibility in the areas of economic, technical and social requirements, and related issues are included in course content. Software applications may be used to enhance student skills. Lecture: 3 hours per week.
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2.00 Credits
(2 credits each) Focuses on numerical control techniques in metal forming and machine processes. Includes theory and practice in lathe and milling machine computer numerical control program writing, setup and operation. Lecture: 1 hour. Laboratory: 2 hours. Total: 3 hours per week.
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2.00 Credits
(2 credits each) Teaches fundamental machine shop operations, bench work, layout, measuring tools, and safety. Lecture: 1 hour. Laboratory 3 hours. Total 4 hours per week.
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3.00 Credits
(2 - 3 credits) Introduces computer-aided manufacturing (CAM) with emphasis on programming of numerical control machinery. Teaches program writing procedures using proper language and logic and a CAM programming system to produce numerical control code for machines. Teaches basic computer usage, 2 1/2D and 3D CADCAM integration and code-to-machine transfer. Lecture: 2 hours. Laboratory: 2 hours. Total: 4 hours per week.
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3.00 Credits
(3 credits each) Introduces safety procedures, bench work, hand tools, precision measuring instruments, drill presses, cut-off saws, engine lathes, manual surface grinders and milling machines. Lecture: 2 hours. Laboratory: 3 hours. Total: 5 hours per week.
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