Prerequisite: Graduate standing in EECS, or permission of the instructor. Prerequisite: C&PE 211; C&PE 511; and C&PE 512; or consent of instructor. 3 Hours. EECS 565. A study of improved oil recovery processes such as miscible displacement, microemulsion displacement, and thermal methods. Frames of references, measures of motion, deformation, strains, stresses, their rates, objectivity and invariance. LEC. Theory, methods and data analysis of various modern flow measurement techniques including: hotwire cluster, laser-Doppler velocimetry, particle image velocimetry, holography, pressure detection, temperature probing, vorticity measurements, Lagrange particle tracking. Design and development of a mechanical system related to biomechanics that has been investigated in ME 633 - Basic Tissue Mechanics and Biodynamics. ARCE 661. Principles of steady and unsteady flows, theories of potential, viscous, and turbulent flows, and applications in water resources engineering. Fundamental principles of Continuum Plasticity, measures of plastic strains, stresses and constitutive equations for flow theory of plasticity. It seems that Corel Draw is designed for Windows whereas I have the latest version of a desktop Mac. Topics include overviews of the various disciplines, curricula and advising, ethics and professionalism, student organizations and extracurricular activities, senior projects, and career planning. LEC. PMGT 811. 2 Hours. Detailed topics include plane wave, spherical wave, and cylindrical wave propagation in free space and waveguides, wave reflection and transmission on an interface, piston radiation, wave scattering and diffraction. Prerequisite: Approval of project topic by project advisor, CMGT 500 or CMGT 700, CMGT 701, CMGT 702, CMGT 703, CMGT 704, CMGT 705, and nine elective credit hours, or consent of instructor. LEC. IWhat I mean; for instance, the free version of "BioRender" can not be used for publications and you need to pay the licence. EPHX 615. LEC. 3 Hours. LEC. Directed design and research projects in aerospace engineering. TCP/IP networks are stressed. Basic gas dynamic equations, potential flow for airfoils and bodies, thin airfoil theory, finite wing, subsonic similarity rules, one and two dimensional supersonic flow, boundary layers and viscous flow, heat transfer, and laboratory experiments. EMGT 850. 3 Hours. An introduction to mechanical design after completing a course in mechanics of materials. Specific examples emphasize general aviation. Software Engineering I. Advanced Engineering Thermodynamics. Methods to be covered include liquid, gas and ion chromatography; mass spectrometry; spectrophotometric, FID, EC, and conductivity detection; atomic absorption; spectrophotometic methods; and potentiometric analysis. EECS 998. The Petroleum major has a GPA requirement for specific courses to progress to junior year courses. LEC. Establishment of specifications and consideration of realistic constraints such as safety, ergonomics, economic factors, design impact, aesthetics, and reliability are required. 3 Hours. CE 770. Structural Engineering and Mechanics Seminar. EECS 843. Advanced Special Problems. Software quality engineering as an integral facet of development from requirements through delivery and maintenance; verification and validation techniques; manual and automated static analysis techniques; fundamental concepts in software testing; test case selection strategies such as black-box testing, white-box testing; formal verification; unit, integration, system, and acceptance testing; regression testing; designing for testability; models for quality assurance; reviews, inspection, documentation, and standards; industry and government standards for quality. With the paid version you can also request icons if you can't find them in the app and their science illustrators will make them for you. 3 Hours. 3 Hours. Application of fundamental scientific principles to the protection of atmospheric, aquatic, and terrestrial environments through the use of pollution abatement processes, with consideration also given to economic, social, political, and legal aspects of pollution control. Introduction to Transportation Engineering. 1-4 Hours. CE 848. LEC. Estimating probability and rate of corrosion. LEC. Graded on a satisfactory progress/limited progress/no progress basis. Prerequisite: ARCE 640 or EECS 212 and Upper-Level EECS Eligibility. -Ability to apply time valuations, cash flows, and taxation in project and operational environments. EECS 441. 3 Hours. f you are in biological sciences, you will find. Introduction to Operating Systems. Topics will include turbine configuration design, drive train engineering, composite rotor blade aerodynamic and structural design, characterizing the influence the wind conditions on the operation, loads, and performance of a wind turbine, wind turbine controls systems engineering, and power electronic conversion. ME 590. 785-864-2984, Andrew Williams, Associate Dean for Diversity, Equity, and Inclusion LEC. Prerequisite: PHSX 313 or consent of instructor. 3 Hours. Examples of case studies will be derived from industry or from research testbeds. Fermi-Dirac and Bose-Einstein systems. Prerequisite: Corequisite: MATH 104, plus either acceptance into the KU Honors Program or consent of instructor. 3 Hours. Corrosion control measures and industrial problems. Radar range equation. Topics will include turbine configuration design, drive train engineering, composite rotor blade aerodynamic and structural design, characterizing the influence of the wind conditions on the operation, loads, and performance of a wind turbine, wind turbine controls systems engineering, and power electronic conversion. 3 Hours. Exceptionally qualified undergraduates may be admitted directly to a Fast-Track Ph.D. program. It applies these principles in project-level decisions in which risk or uncertainty play a central role. Prerequisite: CE 330 or equivalent. AE 709. AE 360. 4 Hours. Mechanical Engineering Problems. What is the true scientific value of the RG score? LEC. C&PE 615. In addition to completing each of the required and elective courses listed in the curriculum, Students in all engineering curricula must take courses that complement the technical content. Concept of turbulent flow and solutions of turbulent boundary layer equations. LEC. EECS 711. LEC. Prerequisite: Varies by topic. An introduction to modern rotary drilling. A capstone course for the program, integrating the material presented in other courses through analysis of several engineering management case studies. Prerequisite: MATH 290 and MATH 526, or consent from the instructor. LEC. Prerequisite: CE 330 or consent of instructor. Prerequisite: PHSX 212 and CHEM 150 or CHEM 149, or consent of instructor. Introduction to Digital Computational Methods in Mechanical Engineering. Prerequisite: Corequisite: CHEM 130 or CHEM 170 or CHEM 190. Introduction to Chemical Engineering Profession II. 3 Hours. C&PE 936. 3 Hours. The application of the laws of chemistry, physics, and mathematics to the solution of material and energy balance problems occurring in the process industries. C&PE 686. Fatigue and connection design considered. The students are expected to understand the technical vulnerabilities of networked systems and to develop methods to eliminate or mitigate those vulnerabilities. Experimental Stress Analysis. LEC. Selecting the major by the beginning of the third semester is strongly encouraged so that the recommended schedule of classes can be followed. ME 644. C&PE 825. This course offers an introduction to the mechanisms, modeling, monitoring and control of energy storage systems with a primary focus on batteries but includes coverage of fuel cells and ultra-capacitors. Includes variational energy principles, calculus of variations, stationary energy and complementary energy principles, and the principle of virtual work. Topics include: transmission lines, ground and power planes, layer stacking, substrate materials, terminations, vias, component issues, clock distribution, cross-talk, filtering and decoupling, shielding, signal launching. Plastic flow of strain-hardening materials. Students’ academic standings are reviewed after each semester. LEC. The entire project life cycle will be covered from inception to close-out, and many practical considerations will be discussed including material procurement, working with contractors and consultants, selecting software, and managing the project team. Principles of unconventional reservoir engineering including properties and use of shale reservoirs, hydraulic fracturing, and relevant environmental and economic factors. This course introduces popular tools for modeling, analyzing and optimizing various transportation elements. Prerequisite: CMGT 500 or CMGT 700 or consent of instructor. EECS 730. FLD. Details can be found in the catalog. Simple statements including precedence, infix, prefix, and postfix notation. LEC. LEC. Special Topics in Physics and Astrophysics: _____. Consent of the instructor. 3 Hours N. Properties and interactions of quarks, leptons, and other elementary particles; symmetry principles and conservation laws; broken symmetry; gauge bosons; the fundamental interactions, grand unified theories of strong, electromagnetic, and weak interactions; the cosmological implications of elementary particle physics. Two lectures periods and one lab period per week. Problem-Solving for the CS Technical Interview. Graduate students who are unable to meet their provisional or probationary requirements within the given time frame may be dismissed from the School of Engineering. Basic rheology including classification of classical bodies based on their stress and strain tensors, rheological equation of state, material functions, generalized Newtonian and general linear viscoelastic fluids, mechanical models such as those of Jeffreys and Maxwell. Provides an overview of musculoskeletal anatomy. Numerical methods topics include finding roots of a single nonlinear equation, numerical solution of ordinary differential equations, numerical integration, and solutions of ordinary differential equations. Chemical Engineering Thermodynamics. ARCE 642. Problem solving using a high level programming language and object oriented software design. Prerequisite: AE 572 or consent of instructor. Prerequisite: EECS 662 or equivalent. LEC. Graduate level directed readings on a topic in electrical engineering, computer engineering, or computer science, mutually agreed-on by the student and instructor. LEC. 3 Hours. LEC. Fourier signal analysis (series and transform); linear system analysis (continuous and discrete); z-transforms, analog and digital filter analysis; analysis and design of continuous and discrete time system using MATLAB. Prerequisite: ME 840. The Bachelor of Science degree programs in computer science and information technology undergraduate programs are accredited by the Computing Accreditation Commission of ABET, http://www.abet.org. Water Quality Modeling. 3 Hours. This course covers the fundamentals of fluid mechanics and includes the topics fluid properties, hydrostatics, applications of conservation of mass, energy and momentum equations, pipe flow, dimensional analysis and open channel flow.
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