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Course Criteria
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2.00 Credits
This course presents the fundamentals of engineering graphics and includes coverage of elementary projection, lines and planes, auxiliary views, edge views, oblique projection, angle between planes, angle between lines and planes, intersections and revolution. Drawing will stress solution of elementary graphic problems. The drawings will be completed in both the drafting laboratory and using CAD software in the computer laboratory. Code 2 course fee.
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3.00 Credits
This is the fi rst part of a basic program in the fundamentals of computer aided drafting/design (CAD). The course provides the student with an understanding of the concepts, features, and limitations of a microcomputerbased CAD system. The course shows how to use AutoCAD to set up drawings and add lines, circles, arcs, other shapes, geometric constructions and text. Code 2 course fee.
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3.00 Credits
This is the second part of a basic program in the fundamentals of computer aided drafting/design (CAD). The course continues from the prerequisite course with diminishing, blocks, attributes, section views, and an introduction to three-dimensional drawing. The course shows how to use AutoCAD to draw and edit polylines; set layers, linetypes and create colors; create section lines and graphic patterns. Code 2 course fee. Prerequisite: ENGR 191
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3.00 Credits
This is the third part of a basic program in the fundamentals of computer aided drafting/design (CAD). The course explores the three dimensional viewing and construction capabilities of AutoCAD. Topics covered include a review of point coordinate entry; X, Y, and Z filters; spherical and cylindrical coordinate entry; 3-D viewing techniques; 3-D geometry construction; surface meshes; regions and solid modeling. Code 2 course fee. Prerequisite: ENGR 192
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3.00 Credits
This is the fi nal part of a basic program in the fundamentals of computer aided drafting/design (CAD). The course covers the techniques for customizing AutoCAD user environment and the AutoCAD menu system. Some of the course topics include creating and modifying toolbars, screen menus, toolbar buttons and fl youts. Other topics include creating macros for automating repetitive tasks and managing symbol libraries. This course also introduces AutoLISP and Dialog Control Language (DCL). Code 2 course fee. Prerequisite: ENGR 193
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3.00 Credits
Geographic Information Systems (GIS) deal with the development and utilization of maps and data. GIS integrates the display capabilities of a computerized map with the information management tools of a spreadsheet. This course will include an overview of maps and computer systems, a look at models for attribute and spatial data, the organization of data in a GIS, and how a GIS can be utilized. Code 2 course fee. Prerequisite: ENGR 192 or CVET 182 or permission of the instructor
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3.00 Credits
This course will introduce the aspects of Solid Modeling and Parametic Modeling, using Autodesk Inventor. The student starts with constructing basic shapes to building intelligent solid molds, creating multi-view drawings and assembly models. Code 2 course fee. Prerequisite: ENGR 192 or CVET 182 or the permission of the instructor
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3.00 Credits
A quantitative study of forces that act on engineering structures in equilibrium. Force system classification, resultant forces and conditions for equilibrium of rigid bodies in two and three dimensions are covered. Mathematical principles of vectors and calculus are applied to trusses, frames, and simple machines. Centroids (center of mass) are developed and used in the analysis of stresses on beams. Special engineering topics discussed will include dry friction with an introduction to virtual work. The concept of moment of inertia included in discussion will establish the link between statics and solid mechanics. Prerequisite: MATH 266 and PHYS 271
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3.00 Credits
A study of the motion of bodies without reference to the forces which cause the motion and the action of forces on acting the bodies to their resulting motions. Rectlilinear and curvilinear motion in two and three dimensions using rectangular, normal/tangential and polar coordinate system are investigated in kinematics. Kinetics includes discussions on work, potential and kinetic energy. Pulse and momentum are analyzed from a special treatment of Newton's second law along with the concept of conservation of energy and momentum. Prerequisite: MATH 266 and PHYS 271
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4.00 Credits
Circuits are studied using the analytical tools of the engineer. The required theorems and techniques are derived fi rst using resistive circuits, and then applied to RC, RL, and RLC networks. Transient analysis of these networks is then studied, followed by sinusoidal steady-state analysis, and sinusoidal power calculations. Laboratory work is correlated with the lectures. Code 2 course fee. Prerequisite: MATH 266 and PHYS 272
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