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Course Criteria
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4.00 Credits
The objective of this course is to acquaint Technical Communication students with threedimensional relationships and the graphical conventions utilized within the engineering community. Course topics will include seeing, visualizing and communicating through visual forms. The investigation of shape and orientation recognition, isometric sketching,mechanical and architectural layout conventions, normal views, scales, sections, dimensioning, and chart and graph formats will be emphasized. In addition, CAD as amediumfor creation, retrieving andmanipulating spatial and quantitative data in visual formwill be introduced.
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2.00 Credits
This course is intended to introduce the student to the history and fundamentals of the graphic language. Topics include three-dimensional visualization, orthographic and axonometric sketching, projection theories, auxiliary views, basic concepts of projective geometry (visibility, lines and planes), as well as an introduction to 3-D CAD.
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2.00 Credits
This course is designed to develop within the student the skills necessary to visualize threedimensional relationships existing in the world around us and to represent, with standard graphic conventions, those relationships in a visual form. Topics include shape and orientation recognition, pictorial sketching andmechanical layout conventions including normal views, auxiliary views, sections, dimensioning and scales. In addition, projective geometry theory is presented as a basis for analysis of true size, shape, and distance.
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2.00 Credits
The objectives of this course are to acquaint the student with the operation of a CAD systemand to apply projective geometry knowledge acquired in EG-122 to spatial problems bothmanually and on the computer. Specific topics will include perpendicularity, clearance distance, parallelism, piercing points and intersections. (prereq: EG-122)
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3.00 Credits
This course is intended to introduce the student to the history and fundamentals of the graphic language. Topics include three-dimensional visualization, orthographic and axonometric sketching, projection theories, auxiliary views, basic concepts of dimensioning and CAD.
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3.00 Credits
This is a study of applications and various aspects of spatial projective geometry. Topics include specifications of lines and planes, parallelism, perpendicularity, connectors, rotation, intersections and CAD. (prereq: EG-124)
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1.00 Credits
The visualization course investigates both theory and application of visual images for analysis and communication of physical and conceptual ideas, concepts and products. Topics to be covered include sketching, spatial relationships, seeing, communicating with imagery, and basic orthographic projection, sections and dimensioning.
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1.00 Credits
This course provides the basic theory and application of two-dimensional AutoCAD. Topics included are drawing, editing, printing, dimensioning, text, attributes, layers, blocks and filemanagement.
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0.00 Credits
In this course students are introduced to digital communication. The OSI referencemodel is introduced. Spectra of various kinds ofmodulation are investigated. Signal-to-noise ratio, bit error rates,multiplexing, and accessmethods are also covered. This course is taken at the Luebeck University of Applied Science (FHL) in Luebeck, Germany. This is a semester course. Lecture: 4SWS, Laboratory: 1SWS.
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0.00 Credits
This course focuses on communication networks. Local area networks, internetworking, traffic engineering, and TCP/IP are also covered. This course is taken at the Luebeck University of Applied Science (FHL) in Luebeck, Germany. This is a semester course. Lecture: 4SWS, Laboratory: 1SWS. (prereq: EL-3030)
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