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Course Criteria
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3.00 Credits
each ( 3:0:0:3) Study of basic topics in analysis with emphasis on methods. Sequences, series, functions, uniform convergence, continuity, partial differentiation, extreme value problems with constraints, Riemann integrals, line integrals, improper integrals, integrals with parameters, transformations, Riemann-Stieltjes integral, uniform and absolute convergence of integrals. Beta and Gamma functions. MA 4613 prerequisite: MA 2122 and MA 2132. MA 4623 prerequisite: MA 4613. Note:This course is required for MA minors.
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3.00 Credits
Reading, study and investigation of selected topics in mathematics. Problem discussions and presentations by participating students. Prerequisite: departmental adviser's approval. Note: this course is required for MA minors.
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3.00 Credits
Addresses basic combinatorial problems of string manipulation-string matching, string editing, string distance computations, arising from areas of text processing, computational biology and genomics. Classical, modern and entirely new approaches to these problems will be presented with all necessary mathematical and computer science backgrounds. Emphasis is on practical and effective algorithm implementations.
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3.00 Credits
This course introduces the range of mechanical engineering and emphasizes the basic principles and devices for storing and using energy, directing motion and satisfying needs. Case studies in design issues; related ethical and professional practice issues. Emphasis on a mindset of exploration: the special principles, value and applications of such devices as flywheels, counterweights, and gyroscopes. Two design challenges to be worked on by teams, and presented. Engineering standards and standard parts. Corequisites: EG 1004 and ME 1112.
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3.00 Credits
Sketching, drawing and computer aided drafting. Projection theory: multiview, axonometric, oblique. Auxiliaries, sections, isometrics, dimensions, fasteners, detail and assembly drawings. Introduction to blueprint reading. Overview of CIM and CAD integration with other CIM concepts. Design project incorporating developed skills in visualization, drawing techniques, standards and CAD. Corequisites: EG 1004 and ME 1012.
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3.00 Credits
Calculations of bending stress, bending moment, shear forces and deflections in beams, buckling of struts and equilibrium analysis of structures. Co-requisite: ME 2213.
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3.00 Credits
Three-dimensional vector treatment of the static equilibrium of particles and rigid bodies. Equivalent force and couple systems. Distributed force systems. Static analysis of trusses, frames and machines. Friction, impending motion. Methods of virtual work. Prerequisite: PH 1004 and MA 1024. Corequisite: ME 2211.
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3.00 Credits
Properties of pure substances; concepts of work and heat; closed and open systems. The fundamental laws of thermodynamics. Carnot and Clasius statements of the 2nd law; entropy and entropy production; heat engines, refrigerators, heat pumps; efficiencies, coefficients of performance. Prerequisite: PH 1004 and MA 1124. Corequisite: MA 2132.
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3.00 Credits
Measurement of elastic constants for isotropic and anisotropic materials, verification of stress and strain transformation equations, stress concentration concept, unsymmetric bending of beams and torsion of shafts. Corequisite: ME 3213.
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3.00 Credits
Concept of Stresses and strains in two and three dimensions, Stress-strain relationships, Stress transformation, Strain transformation, Axial members, Torsion of shafts, Bending of beams. Prerequisites: ME 2213, ME 2211 and MA 2132. Co-requisite: ME 3211.
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