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C OLLEGE OF E NGINEERING include network diagrams, Gantt charts, CPM scheduling, activity duration compression, project activity optimization, activity analysis, cost and schedule performance indices, and cost estimating. Active learning is utilized with a combination of teaching and learning techniques, including lecture, discussions, reading, case studies, guest lectures, and handson projects. Intended only for undergraduate engineering students. Lect. 1 hr. 1 hour credit EGE3003 THERMODYNAMICS Prerequisites: MCS2414, PHY2413. Thermodynamic systems, the first law of thermodynamics, transient and steady flow processes, physical properties, the second law of thermodynamics, reversible and irreversible processes, the property entropy, vapor and gas power cycles. Lect. 3 hrs. 3 hours credit EGE3012 ENGINEERING COST ANALYSIS Prerequisite: 0. Basic development of the cost consequences of engineering decision-making. Interest calculations, cash flow equivalences, annual cash flows, rates of return, incremental analysis and other analytical approaches. Depreciation, income taxes and replacement analysis. Lect. 2 hrs. 2 hours credit EGE3193 ALTERNATIVE ENERGY EGE3301 BUSINESS LAW FOR ENGINEERS Prerequisite: COM2103. Foundation in business law including types of business formations, sole proprietorships, partnerships, corporation, and Limited Liability Companies. The strategic management of intellectual property assets is introduced, with special emphasis on internal protec- tion and management of these assets. Issues of product liability and ethics are introduced through a mix of classroom lectures, readings, case analyses and projects. Intended only for undergraduate engineering students. Lect. 1 hr. 1 hour credit EGE3311 STRATEGIC MANAGEMENT FOR ENGINEERS Prerequisite: EGE2211. How top management develops plans to attain outcomes consistent with an organization’s mission and goals. Uses case studies and a potential corporate venture to convey how to establish an organization’s mission and develop its goals, analyze opportunities and threats or constraints that exist in the external environment, analyze the organization’s strengths and weaknesses, formulate strategies to match the organization’s strengths and weaknesses with the environment’s opportunities and threats, develop ways to implement strategies, and ways to implement control activities to ensure that the organization’s goals are attained. Intended only for undergraduate engineering students. Lect. 1 hr. 1 hour credit EGE3321 ENGINEERING ENTERPRISE 2 Prerequisite: EME2221. Second course in the Enterprise Work sequence. Students work in teams on a real-life engineering project. A continuation of participation in student enterprises at Lawrence Tech. Principles of project management, engineering design, budgeting, technical communication, and teamwork are reinforced through working on teams with senior level students. Lect. 1 hr. 1 hour credit EGE3331 ENGINEERING ENTERPRISE 3 Prerequisite: EME3321, Co-requisite: EME4003. Third course in the Enterprise Work sequence. Students apply principles of the engineering design process, proposal writing, project planning, and project management. Students form groups, choose a senior project, and submit a project proposal. The project proposal is a complement to the business plan being generated in the EGE3341 Business Plan Development course. Lect. 1 hr. 1 hour credit EGE3341 CORPORATE ENTREPRENEURSHIP FOR ENGINEERS Prerequisite: COM 2103. The nature of entrepreneurship and the effective implementation of entrepreneurial strategies in large engineering enterprises. Focuses on the identification, development, and exploitation of technical and organizational innovations to meet enterprise goals, the management of new product/process developments, and effective new venture management in a corporate context. Lect. 1 hr. 1 hour credit EME2011 MATERIALS LABORATORY Prerequisites: EGE1023, COM2103. A project laboratory devoted to the study of metallographic techniques, heat treatment, structures of metals, alloys, ceramics, and plastics, and physical testing. Lab. 2 hrs. 1 hour credit EME2012 MECHANICAL ENGINEERING GRAPHICS Prerequisite: 0. An integrated course in engineering graphics for all students in the College of Engineering. Introduction to graphics in design, fundamentals of orthogonal projection and experience in applying these principles to the solution of space problems. ACAD software. Lect. 1 hr., Lab. 2 hrs. 2 hours credit EME3011 INTRODUCTION TO ENGINEERING PROJECTS Prerequisite: Junior standing. Student needs a passing grade in EME4003 before enrolling in EME4212. Introduction to the design process, matching engineering specifications to customer requirements, prototyping, product testing and evaluation, project planning and management. Students select senior projects, form project teams and submit a project pre-proposal. Orientation to fabrication facilities. Lab 2 hrs. 1 hour credit EME3013 MECHANICS OF MATERIALS Prerequisite: EGE2013. Stress as internal force intensity. Stress and deflections due to: axial, torsional, and bending loads; statically indeterminate loads, stress and strain transformation, buckling and design of an efficient structure. Lect. 3 hrs. 3 hours credit EME3023 MANUFACTURING PROCESSES Prerequisite: EGE1023. Relationship between product engineering and manufacturing engineering. Casting processes, bulk deformation processes, sheet metal processes, joining and welding processes, single-cutting-edge operations, multi-cutting-edge operations, random-cutting-edge operations, non-traditional machining, design for fabricability, the factory of the future. Lect. 3 hrs. 3 hours credit EME3024 FLUID MECHANICS Prerequisites: EGE3003, EME3013, EME3043. Fluid statics; conservation of mass, momentum, and energy; dimensional analysis and similitude; pipe flow; laminar and turbulent boundary layers; lift and drag on immersed bodies, potential flow, compressible flow. Lect. 4 hrs. 4 hours credit 154 U N D E R G R A D U A T E C A T A L O G 2 0 0 5 - 2 0 0 7
C OLLEGE OF E NGINEERING EME3033 EME3034 KINEMATICS & DYNAMICS OF MACHINES Prerequisite: EME3043. Mechanisms; linkages, cams, gears and gear trains; displacement, velocity; acceleration, synthesis of mechanisms. Dynamic force analysis of machines including general linkage, cams, slider cranks, and space mechanisms. Syntheses of dynamically constrained components. Lect. 4 hrs. 4 hours credit EME3043 DYNAMICS Prerequisite: EGE2013. Kinematics and kinetics of particles, rigid bodies, and systems of particles and rigid bodies will be analyzed by the classical methods; vibrations of single degree of freedom systems. Lect. 3 hrs. 3 hours credit EME4003 DESIGN OF MACHINE ELEMENTS Prerequisite: EME3013. Student needs a passing grade in EME4003 before enrolling in EME4212. Application of the principles of solid mechanics and other engineering sciences to the efficient design of simple machine elements such as fasteners, gears, springs, and simple structures. Mechanical failure criteria and the effects of fatigue and impact loading on components are presented. Lect. 3 hrs. 3 hours credit EME4013 HEAT TRANSFER Prerequisites: EGE3003; EME3024 recommended, but may be a co-requisite. Steady and transient conductive heat transfer; radiative heat transfer, forced and free convection heat transfer, psychometrics. Design of heat exchangers. Lect. 3 hrs. 3 hours credit EME4123 AUTOMATED MANUFACTURING SYSTEMS Prerequisite: EME3023. Overview of automated manufacturing systems, numerical control machines and programming, adaptive control, automated material handling, integrated flexible manufacturing systems. Lect. 3 hours. 3 hours credit EME4133 MANUFACTURING FACILITIES DESIGN Prerequisites: EME4123 and Senior standing. Design of the manufacturing plant to use space, machines, material handling methods, and equipment for economical production and inspection. Lect. 3 hrs. 3 hours credit EME4143 WORLD CLASS MANUFACTURING Prerequisite: EME3023. Excelling in world class manufacturing. Concurrent engineering, product development, quality engineering, automated inspection and testing, statistical process control, cellular manufacturing, manufacturing cost estimating, total productive maintenance, agile manufacturing, quality systems standards, and total quality. Lect. 3 hrs. 3 hours credit EME4212 ENGINEERING PROJECTS 1 Prerequisites: EME3011, EME4003. Initiation of the senior design project, formal engineering proposal, oral presentation, concept development, project documentation. Student project teams work closely with a faculty advisor. 2 hours credit EME4222 ENGINEERING PROJECTS 2 Prerequisite: EME4212. Completion of the senior project, formal final report, oral presentation, prototype development, fabrication, testing and evaluation. Student project teams work closely with a faculty advisor to meet project objectives. 2 hours credit EME4243 FINITE ELEMENT ANALYSIS Prerequisite: EME3013. Introducing the theory and application of the FEA method to the stress analysis and design of mechanical systems. Matrix methods in structural analysis are used. Element and structural stiffness matrices are developed and used to solve for displacement, strains, and stresses in trusses, beams, and plane problems. Boundary conditions and modeling consideration. Introduction to general purpose FEA software. Lect. 2 hrs., Lab. 2 hrs. 3 hours credit EME4263 MICROMECHANICS OF MATERIALS Prerequisites: EGE1023, EME3013. Mechanical behavior of materials, emphasizing the effects of microstructure on properties. Models for deformation, fracture, and fatigue. Analytical and predictive methods useful to the design engineer. Materials testing and proper use of materials property data. Lect. 3 hrs. 3 hours credit EME4313 FUNDAMENTALS OF QUALITY SYSTEMS Prerequisite: Senior standing, EME3023, MCS3403. Considerations for developing and implementing effective quality systems. An overview of the fundamentals of statistical principles and analysis of process variability, sampling techniques, control charts, ISO 9000/QS 9000 and process improvement. Lect. 3 hrs. 3 hours credit EME4333 SAFETY ENGINEERING Prerequisite: Senior standing. Introduction to the basic principles of safety, analytical approaches to address concerns in the design and operation of products, equipment, facilities, environmental concerns and human factors. Legal aspects of safety and government regulations emphasized. Lect. 3 hrs. 3 hours credit EME4363 THERMAL FLUID SYSTEM DESIGN Prerequisites: EGE3003, EME3024, EME4013. Students work individually or in small groups to design systems and/or devices. Piping systems, heat exchangers, prime movers, system simulation and fluid transients. Lect. 3 hrs. 3 hours credit EME4402 MECHANICS LABORATORY Prerequisites: EME3013, EME3043. Illustrates the principles of mechanics (dynamics, mechanics of materials) and introduces the tools and techniques of experimental mechanics. Lect. 1 hr., Lab. 2 hrs. 2 hours credit EME4412 THERMAL SCIENCE LABORATORY Prerequisites: EME3024, EME4013. The study of heat transfer, fluid flow, thermodynamics, data acquisition, and control. Experiments illustrate each topic and reports are written for each experiment. Lect. 1 hr., Lab. 2 hrs. 2 hours credit EME4603 INTRODUCTION TO MECHANICS (Non-ME) Prerequisites: EGE2013, not open to mechanical engineering majors. Exposes non-mechanical engineering students to the principles of engineering mechanics. Dynamics, strength of materials, gears, and vibrations. Lect. 3 hrs. 3 hours credit U N D E R G R A D U A T E C A T A L O G 2 0 0 5 - 2 0 0 7 155
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2005-2007 U NDERGRADUATE C ATALOG 2
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A NNOUNCEMENT OF G ENERAL I NFORMAT
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