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MECHANICAL ENGINEERING & MATERIALS SCIENCE (E37)  (Dept. Info) Engineering and Applied Science  (Policies) FL2016 E37 MEMS 1001 Machine Shop Practicum 1.0 Unit Details Save  Cancel   My Note:   Description: Operation of basic machine tools including: lathe, drill press, grinder and mill. Student shop privilege requires completion of this practicum. Attributes: EN: TU 1.00 Instruction Type: Classroom instruction Grade Options: P Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 --W---- 9:00A-11:30A Urbauer / 113 Tapella No final 12 9 0 Actions: Books 02 ---R--- 9:00A-11:30A Urbauer / 113 Tapella No final 12 12 0 Desc: Wait list to register for this section. Freshmen will be given priority. Actions: Books E37 MEMS 1003 Mechanical Engineering Design and Build 1.0 Unit Details Save  Cancel   My Note:   Description: The course provides an introduction to design and fabrication. Students formulate designs, build prototypes and compete in engineering exploration-based creative design projects. Emphasis is placed on producing working hardware and prototypes in response to design needs. Specialized learning modules focus on the knowledge required to complete projects, such as introductory topics in shop skills, machine elements, electronics, design, visualization and communication. Enrollment limited to engineering freshmen. Attributes: Instruction Type: Classroom instruction Grade Options: P Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T----- 9:00A-11:30A Urbauer / 113 Tapella No final 12 12 0 Desc: Wait list for this section. Freshmen will be given priority. Actions: Books 02 ----F-- 9:00A-11:30A Urbauer / 113 Tapella No final 12 8 0 Actions: Books E37 MEMS 103 Computer Aided Design - AutoCAD 1.0 Unit Details Save  Cancel   My Note:   Description: AutoCAD is the most used two-dimensional drawing software for Architectural and Engineering production drawings. Introduction to AutoCAD, title blocks, drawing setup, absolute and relative coordinates, drawing entities, layouts, drafting geometry, dimensioning, plotting drawings to scale, sectional and other special views, isometric pictorial views. Classwork involves typical drawings from industry. Attributes: EN: TU 1.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W---- 10:00A-11:30A Jolley / 2 Woodhams See instructor 18 10 0 Short Start: 8/29/2016   End: 10/14/2016 Actions: Books E37 MEMS 202 Computer-Aided Design 3.0 Units Details Save  Cancel   My Note:   Description: An introduction to computer aided engineering design in the context of mechanical and structural engineering. Students learn the fundamentals of spatial reasoning and graphical representation. Freehand sketching skills, including pictorial and orthographic views, are applied to the design process. Computer modeling techniques provide accuracy, analysis, and visualization tools necessary for the design of structures, devices and machines. Topics include: detailing design for production, fasteners, dimensioning, tolerancing, creation of part and assembly drawings, computer aided design, analysis and optimization of parts and assemblies; solid modeling of complex surfaces, assembly modeling, assembly constraints, and interference checking. Attributes: EN: TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: Every Semester / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 10:00A-12:00P Jolley / 2 Woodhams See instructor 0 18 0 Desc: Priority will be given to freshmen students in sections 1-3; however, any student can be placed on the waitlist for this section. Section 4 is open to all students. Dual degree students will have priority in section 5. Actions: Books Waits managed by dept. 02 -T-R--- 1:00P-3:00P Jolley / 2 Woodhams See instructor 0 18 0 Desc: Priority will be given to freshmen students in sections 1-3; however, any student can be placed on the waitlist for this section. Section 4 is open to all students. Dual degree students will have priority in section 5. Actions: Books Waits managed by dept. 03 -T-R--- 3:00P-5:00P Jolley / 2 Woodhams See instructor 0 18 0 Desc: Priority will be given to freshmen students in sections 1-3; however, any student can be placed on the waitlist for this section. Section 4 is open to all students. Dual degree students will have priority in section 5. Actions: Books Waits managed by dept. 04 M-W---- 12:00P-2:00P Jolley / 2 Woodhams See instructor 18 18 0 Actions: Books 05 M-W---- 2:30P-4:30P Jolley / 2 Woodhams See instructor 0 17 0 Desc: Priority will be given to freshmen students in sections 1-3; however, any student can be placed on the waitlist for this section. Section 4 is open to all students. Dual degree students will have priority in section 5. Actions: Books Waits managed by dept. E37 MEMS 253 Engineering Mechanics I 3.0 Units Details Save  Cancel   My Note:   Description: Principles of statics, solid mechanics, force systems and equilibrium. Equivalent systems of forces and distributed forces. Applications to trusses, frames, machines, beams, and cables. Mechanics of deformable solids and indeterminate problems. Stress, strain, deflection, yield and fracture in beams, columns, and torsion members. Evening exams, at which attendance is required, will be given from 7:00-9:00 pm on Thursday, 10/8/15 and Tuesday, 11/3/15. Prerequisites: Physics 117A Co-requisites: Math 217 Attributes: EN: TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W-F-- 1:00P-2:00P Wrighton / 250 Lake Dec 15 2016 8:00AM - 10:00AM 44 43 0 Actions: Books Waits Not Allowed 02 M-W-F-- 10:00A-11:00A Simon / 023 Wagenseil Dec 15 2016 8:00AM - 10:00AM 44 37 0 Actions: Books Waits Not Allowed E37 MEMS 255 Engineering Mechanics II 3.0 Units Details Save  Cancel   My Note:   Description: Review of vector algebra and calculus. Kinematics of a particle. Newton's laws and the kinetics of a particle. Work and energy. Impulse and momentum. Kinematics of rigid bodies. General theorems for systems of particles. Kinetics of rigid bodies. The inertia tensor. Computer problems form a significant part of the class. Prerequisites: Math 217 Attributes: EN: TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W-F-- 11:00A-12:00P Cupples II / L001 Karunamoorthy Dec 20 2016 10:30AM - 12:30PM 20 10 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. E37 MEMS 301 Thermodynamics 3.0 Units Details Save  Cancel   My Note:   Description: This course of classical thermodynamics is oriented towards mechanical engineering applications. It includes properties and states of a substance, processes, cycles, work, heat, and energy. Steady-state and transient analyses utilize the First and Second Laws of Thermodynamics for closed systems and control volumes, as well as the concept of exergy. Prerequisites: Chem 111A, Math 132, Phys 197 or 117A. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: Annually / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 8:30A-10:00A Cupples II / L015 Brandon Dec 16 2016 1:00PM - 3:00PM 39 41 0 Actions: Books Waits Not Allowed 02 -T-R--- 11:30A-1:00P Cupples II / 230 Agonafer Dec 19 2016 1:00PM - 3:00PM 38 32 0 Actions: Books Waits Not Allowed B ----F-- 2:00P-3:00P Cupples II / 230 Onikoyi Default - none 40 32 0 Desc: discussion section for section 02 Actions: Books Waits Not Allowed E37 MEMS 3410 Fluid Mechanics 3.0 Units Details Save  Cancel   My Note:   Description: Fundamental concepts of fluids as continua. Topics include: viscosity, flow fields, velocity, vorticity, streamlines, fluid statics, hydrostatic forces, manometers, conservation of mass and momentum, incompressible inviscid flow, dimensional analysis and similitude, flow in pipes and ducts, flow measurement, boundary-layer concepts, flow in open channels. Corequisite: MEMS 255. Prerequisites: Math 233 and Math 217. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W-F-- 11:00A-12:00P Green Hall / L0159 Agarwal Dec 20 2016 10:30AM - 12:30PM 42 42 0 Actions: Books Waits Not Allowed 02 -T-R--- 2:30P-4:00P Wrighton / 201 Boyd Dec 15 2016 1:00PM - 3:00PM 45 42 0 Desc: Active learning section - Attendance is required Actions: Books Waits Not Allowed E37 MEMS 350 Engineering Mechanics III 3.0 Units Details Save  Cancel   My Note:   Description: A continuation of MEMS 253 containing selected topics in the mechanics of deformable solids, presented at a level intermediate between introductory strength of materials and advanced continuum mechanics. Lectures will discuss elastic and elasto-plastic response, failure criteria, composites, beams, and structural stability, as well as an introduction of the tensorial formulation of stress and strain and the governing equations of 3-D linear elasticity. Mathematical methods from calculus, linear algebra and linear differential equations will be used. Computer problems form a significant part of the class. Evening exams, at which attendance is required, will be given from 6:30-8:30 pm on Wed 9/30/15 and Tu 11/3/15. MEMS 255 not required. Prerequisite MEMS 253. Corequisite ESE 318. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: Annually / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 10:00A-11:30A Green Hall / L0159 Sellers Dec 15 2016 10:30AM - 12:30PM 35 28 0 Actions: Books E37 MEMS 3610 Materials Science 3.0 Units Details Save  Cancel   My Note:   Description: Introduction to properties, chemistry and physics of engineering materials; conduction, semiconductors, crystalline structures, imperfections, phase diagrams, kinetics, mechanical properties, ceramics, polymers, corrosion, magnetic materials, and thin films; relationship of atomic and molecular structure to physical and chemical properties; selection of materials for engineering applications; relationships between physical properties, chemical properties and performance of engineering materials. Pre-requisite: Chem 111A Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W-F-- 10:00A-11:00A Whitaker / 216 Mishra Dec 19 2016 10:30AM - 12:30PM 35 24 0 Actions: Books E37 MEMS 400 Independent Study Var. Units (max = 6.0) Details Save  Cancel   My Note:   Description: Independent investigation on topic of special interest. Prerequisites: junior or senior standing and permission of department chair. Attributes: Instruction Type: Independent study, tutorial, or other Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 TBA TBA [TBA] Default - none 0 0 0 Actions: Books Waits managed by dept. 03 TBA TBA Axelbaum Default - none 0 0 0 Actions: Books Waits managed by dept. 04 TBA TBA Singamaneni Default - none 1 1 0 Actions: Books 05 TBA TBA Banerjee Default - none 1 1 0 Actions: Books 06 TBA TBA Gould Default - none 0 0 0 Actions: Books Waits managed by dept. 07 TBA TBA Hakkinen Default - none 0 0 0 Actions: Books Waits Not Allowed 08 TBA TBA Harmon Default - none 0 0 0 Actions: Books Waits managed by dept. 09 TBA TBA Agarwal Default - none 0 0 0 Actions: Books Waits managed by dept. 10 TBA TBA Bayly Default - none 1 1 0 Actions: Books 11 TBA TBA Flores Default - none 1 1 0 Actions: Books 12 TBA TBA Jerina Default - none 0 0 0 Actions: Books Waits managed by dept. 14 TBA TBA Paris Default - none 0 0 0 Actions: Books Waits managed by dept. 15 TBA TBA Peters Default - none 0 0 0 Actions: Books Waits managed by dept. 16 TBA TBA Harkins Default - none 0 0 0 Actions: Books Waits managed by dept. 17 TBA TBA Sastry Default - none 0 0 0 Actions: Books Waits managed by dept. 18 TBA TBA Avula Default - none 0 0 0 Actions: Books Waits Not Allowed 19 TBA TBA Thoroughman Default - none 0 0 0 Actions: Books Waits managed by dept. 20 TBA TBA Lake Default - none 1 1 0 Actions: Books 21 TBA TBA Pathak Default - none 0 0 0 Actions: Books Waits managed by dept. 22 TBA TBA Jakiela Default - none 0 0 0 Actions: Books Waits managed by dept. 23 TBA TBA Genin Default - none 1 1 0 Actions: Books 24 TBA TBA Brandon Default - none 0 0 0 Actions: Books Waits managed by dept. 25 TBA TBA Wagenseil Default - none 0 0 0 Actions: Books Waits managed by dept. 26 TBA TBA Tang Default - none 0 0 0 Actions: Books Waits managed by dept. 27 TBA TBA Sellers Default - none 0 0 0 Actions: Books Waits managed by dept. 28 TBA TBA Okamoto Default - none 1 1 0 Actions: Books 29 TBA TBA Moore Default - none 0 0 0 Actions: Books Waits Not Allowed 30 TBA TBA Elson Default - none 0 0 0 Actions: Books Waits managed by dept. 31 TBA TBA Tang Default - none 0 0 0 Actions: Books Waits managed by dept. 32 TBA TBA Tang Default - none 0 0 0 Actions: Books Waits managed by dept. 33 TBA TBA Williams Default - none 0 0 0 Actions: Books Waits managed by dept. 34 TBA TBA Meacham Default - none 1 1 0 Actions: Books E37 MEMS 405 Vibrations and Machine Elements Laboratory 2.0 Units Lab Required Details Save  Cancel   My Note:   Description: Laboratory experiments and exercises focusing on vibration of mechanical systems; kinematic response, dynamic response and design of mechanisms and machine components; displacements, velocities, and accelerations in mechanical systems and components; response to static and dynamic forces; transient and steady state response; design of mechanical components for power transmission; calibration and use of instrumentation; acquisition, processing, and analysis of data; principles of experimentation and measurement; statistical analysis of data; preparation of laboratory reports and presentation of data. Pre-requisites: MEMS 3110 Co-requisite: MEMS 4310 Attributes: EN: TU 2.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M------ 1:00P-2:00P Lopata Hall / 101 Malast, Bayly, Onikoyi No final 72 64 0 Actions: Books Waits Not Allowed A M------ 2:00P-4:00P Jolley / 111 Onikoyi Default - none 4 4 0 Actions: Books Waits Not Allowed B -T----- 12:00P-2:00P Jolley / 111 Onikoyi Default - none 4 4 0 Actions: Books Waits Not Allowed C -T----- 2:00P-4:00P Jolley / 111 Onikoyi Default - none 4 4 0 Actions: Books Waits Not Allowed D --W---- 12:00P-2:00P Jolley / 111 Onikoyi Default - none 4 4 0 Actions: Books Waits Not Allowed E --W---- 2:00P-4:00P Jolley / 111 Malast Default - none 4 4 0 Actions: Books Waits Not Allowed F ---R--- 12:00P-2:00P Jolley / 111 Malast Default - none 4 5 0 Actions: Books Waits Not Allowed G ---R--- 2:00P-4:00P Jolley / 111 Malast Default - none 4 4 0 EMBA-FL Start: 8/3/2016   End: 1/19/2017 Actions: Books Waits Not Allowed H ----F-- 12:00P-2:00P Jolley / 111 Onikoyi Default - none 4 4 0 Actions: Books Waits Not Allowed I ----F-- 2:00P-4:00P Jolley / 111 Onikoyi Default - none 4 4 0 Actions: Books Waits Not Allowed J M------ 2:00P-4:00P Jolley / 111 Onikoyi Default - none 4 4 0 Actions: Books Waits Not Allowed K -T----- 12:00P-2:00P Jolley / 111 Malast Default - none 0 0 0 Actions: Books Waits Not Allowed L -T----- 2:00P-4:00P Jolley / 111 Malast Default - none 0 0 0 Actions: Books Waits Not Allowed M --W---- 12:00P-2:00P Jolley / 111 Malast Default - none 4 4 0 EMBA-FL Start: 8/3/2016   End: 1/19/2017 Actions: Books Waits Not Allowed N --W---- 2:00P-4:00P Jolley / 111 Malast Default - none 4 4 0 Actions: Books Waits Not Allowed O ---R--- 12:00P-2:00P Jolley / 111 Malast Default - none 4 4 0 Actions: Books Waits Not Allowed P ---R--- 2:00P-4:00P Jolley / 111 Malast Default - none 4 4 0 Actions: Books Waits Not Allowed Q ----F-- 12:00P-2:00P Jolley / 111 Onikoyi Default - none 4 4 0 Actions: Books Waits Not Allowed R ----F-- 2:00P-4:00P Jolley / 111 Onikoyi Default - none 4 3 0 Actions: Books Waits Not Allowed E37 MEMS 4101 Manufacturing Processes 3.0 Units Details Save  Cancel   My Note:   Description: Manufacturing processes and machinery are explained and described. Topics include: analytical tools of machine science, heat transfer, vibrations and control theory are applied to the solution of manufacturing problems, analytical development and application of engineering theory to manufacturing problems, machine tools and automated production equipment. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 2:30P-4:00P Cupples II / 230 Griffith Dec 21 2016 3:30PM - 5:30PM 40 25 0 Actions: Books E37 MEMS 411 Mechanical Engineering Design Project 3.0 Units Lab Required Details Save  Cancel   My Note:   Description: Simulating an integrated product team (IPT) experience, student teams will complete a conceptual design study, select a design project, procure parts, build a prototype, track cost and schedule, and manage project risk. Projects will have multiple design constraints including cost, codes, standards, environmental, ethical, and societal constraints. SolidWorks CAD and SolidWorks simulation-based engineering analysis will support design and prototype activities. Student teams will publish a project report through WUSTL library's open scholarship repository. Lectures have an active learning format comprised of outside reading assignments, guest speakers, group discussion, and design reviews. Prerequisites: MEMS 3110. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: Annually / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W-F-- 10:00A-11:00A Lopata Hall / 101 Malast, Jakiela, Asinugo No final 80 65 0 Actions: Books Waits Not Allowed A M------ 2:00P-4:00P Jolley / 110 Malast, Jakiela Default - none 16 16 0 Actions: Books Waits Not Allowed B -T----- 12:00P-2:00P Jolley / 110 Malast, Jakiela Default - none 16 6 0 Actions: Books Waits Not Allowed C --W---- 12:00P-2:00P Jolley / 110 Malast, Jakiela Default - none 16 15 0 Actions: Books Waits Not Allowed D ---R--- 12:00P-2:00P Jolley / 110 Malast, Jakiela Default - none 16 12 0 Actions: Books Waits Not Allowed E ----F-- 12:00P-2:00P Jolley / 110 Malast, Jakiela Default - none 16 16 0 Actions: Books Waits Not Allowed E37 MEMS 4310 Dynamics and Vibrations 3.0 Units Details Save  Cancel   My Note:   Description: Introduction to the analysis of vibrations in single- and multi- degree of freedom systems; free and forced vibration of multi-degree of freedom and distributed parameter mechanical systems and structures; methods of Laplace transform; complex harmonic balance; matrix formulation; Fourier series; and transient response of continuous systems by partial differential equations. Prerequisites: MEMS 255, ESE 318 and ESE 319 Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W-F-- 11:00A-12:00P Wrighton / 250 Peters Dec 15 2016 6:00PM - 8:00PM 42 37 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. Waits Not Allowed 02 M-W-F-- 9:00A-10:00A Cupples II / L015 Karunamoorthy Dec 15 2016 6:00PM - 8:00PM 42 33 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. Waits Not Allowed E37 MEMS 500 Independent Study Var. Units (max = 6.0) Details Save  Cancel   My Note:   Description: Independent investigation on topic of special interest. Prerequisites: graduate standing and permission of the instructor. Attributes: Instruction Type: Independent study, tutorial, or other Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 TBA TBA [TBA] Default - none 0 0 0 Actions: Books Waits managed by dept. 02 TBA TBA Pitt Default - none 0 0 0 Actions: Books Waits managed by dept. 03 TBA TBA Axelbaum Default - none 0 0 0 Actions: Books Waits managed by dept. 04 TBA TBA Singamaneni Default - none 1 1 0 Actions: Books 05 TBA TBA Banerjee Default - none 0 0 0 Actions: Books Waits managed by dept. 07 TBA TBA Hakkinen Default - none 0 0 0 Actions: Books Waits Not Allowed 08 TBA TBA Harmon Default - none 0 0 0 Actions: Books Waits managed by dept. 09 TBA TBA Agarwal Default - none 5 5 0 Actions: Books 10 TBA TBA Bayly Default - none 0 0 0 Actions: Books Waits managed by dept. 11 TBA TBA Flores Default - none 0 0 0 Actions: Books Waits managed by dept. 12 TBA TBA Jerina Default - none 0 0 0 Actions: Books Waits managed by dept. 13 TBA TBA Kelton Default - none 0 0 0 Actions: Books Waits managed by dept. 14 TBA TBA Paris Default - none 0 0 0 Actions: Books Waits managed by dept. 15 TBA TBA Peters Default - none 3 2 0 Actions: Books 17 TBA TBA Sastry Default - none 0 0 0 Actions: Books Waits managed by dept. 18 TBA TBA Avula Default - none 0 0 0 Actions: Books Waits Not Allowed 19 TBA TBA Thoroughman Default - none 0 0 0 Actions: Books Waits managed by dept. 20 TBA TBA Lake Default - none 0 0 0 Actions: Books Waits managed by dept. 21 TBA TBA Pathak Default - none 1 1 0 Actions: Books 22 TBA TBA Jakiela Default - none 0 0 0 Actions: Books Waits managed by dept. 23 TBA TBA Genin Default - none 1 1 0 Actions: Books 24 TBA TBA Brandon Default - none 0 0 0 Actions: Books Waits managed by dept. 25 TBA TBA Wagenseil Default - none 0 0 0 Actions: Books Waits managed by dept. 28 TBA TBA Okamoto Default - none 0 0 0 Actions: Books Waits managed by dept. 29 TBA TBA Moore Default - none 0 0 0 Actions: Books Waits Not Allowed 30 TBA TBA Elson Default - none 0 0 0 Actions: Books Waits managed by dept. 31 TBA TBA Tang Default - none 0 0 0 Actions: Books Waits managed by dept. 32 TBA TBA Tang Default - none 0 0 0 Actions: Books Waits managed by dept. 33 TBA TBA Williams Default - none 0 0 0 Actions: Books Waits managed by dept. 34 TBA TBA Meacham Default - none 0 1 0 Actions: Books Waits managed by dept. 35 TBA TBA Karunamoorthy Default - none 0 0 0 Actions: Books Waits managed by dept. E37 MEMS 501 Graduate Seminar 0.0 Unit Details Save  Cancel   My Note:   Description: This is a required satisfactory/pass/fail course for masters and doctoral degrees. A satisfactory S grade is required for each semester of full-time enrollment. A satisfactory S grade is received by attendance at the weekly seminars. Attributes: Instruction Type: Classroom instruction Grade Options: P Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 ---R--- 2:30P-4:00P Brauer Hall / 12 Meacham No final 85 84 0 Desc: All full-time MEMS graduate students must register for this course. Actions: Books E37 MEMS 5301 Nonlinear Vibrations 3.0 Units Details Save  Cancel   My Note:   Description: In this course students are introduced to concepts in nonlinear dynamics and vibration and application of these concepts to nonlinear engineering problems. Specific topics include: modeling of lumped and continuous nonlinear systems (strings, beams, and plates); vibrations of buckled structures; perturbation and other approximate analytical methods; the use and limitations of local linearization; properties of nonlinear behavior, such as dimension and Lyapunov exponents; stability of limit cycles; bifurcations; chaos and chaotic vibrations; experimental methods and data analysis for nonlinear systems. Concepts will be reinforced with a number of examples from recently published research. Applications will include aeroelastic flutter, impact dynamics, machine-tool vibrations, cardiac arrhythmias, and control of chaotic behavior. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 4:00P-5:30P Cupples II / L009 Bayly Dec 21 2016 6:00PM - 8:00PM 40 36 0 Actions: Books E37 MEMS 5401 General Thermodynamics 3.0 Units Details Save  Cancel   My Note:   Description: General foundations of thermodynamics valid for small and large systems, and for equilibrium and non-equilibrium states. Topics include: definitions of state, work, energy, entropy, temperature, heat interaction, and energy interaction. Applications to simple systems, phase rule, perfect and semi-perfect gas, bulk-flow systems, combustion, energy and entropy balances, availability analysis for thermo-mechanical power generation, and innovative energy-conversion schemes. Prerequisite: Graduate standing or permission of instructor. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W-F-- 11:00A-12:00P Whitaker / 216 Sellers Dec 15 2016 1:00PM - 3:00PM 20 12 0 Actions: Books E37 MEMS 5402 Radiation Heat Transfer 3.0 Units Details Save  Cancel   My Note:   Description: Formulation of the governing equations of radiation heat transfer. Topics include: electromagnetic theory of radiation, properties of ideal and real surfaces, techniques for solutions of heat transfer between gray surfaces, radiation in absorbing, emitting and scattering media. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W---- 5:30P-7:00P Lopata Hall / 202 Driemeyer Dec 19 2016 6:00PM - 8:00PM 25 10 0 Actions: Books E37 MEMS 5404 Combustion Phenomena 3.0 Units Details Save  Cancel   My Note:   Description: Introduction to fundamental aspects of combustion phenomena including relevant thermochemistry, fluid mechanics, and transport processes. Emphasis is on elucidation of the physico-chemical processes, problem formulation, and analytical techniques. Topics covered include ignition, extinction, diffusion flames, particle combustion, deflagrations, and detonations. Prerequisites: Graduate standing or permission of instructor. (Prior to FL2015, this course was numbered: E33 5404.) Attributes: EN: BME T2, TU Instruction Type: Classroom instruction Grade Options: CPA Fees: Course Type: Ident Same As: E44 512 Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W---- 2:30P-4:00P McDonnell / 362 Axelbaum Dec 19 2016 3:30PM - 5:30PM 24 8 0 Actions: Books E37 MEMS 5410 Fluid Dynamics I 3.0 Units Details Save  Cancel   My Note:   Description: Formulation of the basic concepts and equations governing a Newtonian, viscous, conducting, compressible fluid. Topics include: transport coefficients and the elements of kinetic theory of gases, vorticity, incompressible potential flow; singular solutions, flow over bodies and lifting surfaces, similarity methods, viscous flow, boundary layer, low Reynolds number flows, laminar and turbulent flows. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W---- 4:00P-5:30P Lopata Hall / 103 Boyd Dec 16 2016 6:00PM - 8:00PM 35 30 0 Actions: Books E37 MEMS 5412 Computational Fluid Dynamics 3.0 Units Details Save  Cancel   My Note:   Description: Computational fluid dynamics relevant to engineering analysis and design. Topics include: fundamentals of finite-difference, finite-volume, and finite-element methods, numerical algorithms for parabolic, elliptic, and hyperbolic equations, convergence, stability, and consistency of numerical algorithms, application of numerical algorithms to selected model equations relevant to fluid flow, grid-generation techniques, and convergence acceleration schemes. Prerequisites: Senior or graduate standing or permission of the instructor. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 4:00P-5:30P Cupples II / 230 Cary Dec 21 2016 6:00PM - 8:00PM 38 27 0 Actions: Books E37 MEMS 5414 Aeroelasticity & Flow-Induced Vibrations 3.0 Units Details Save  Cancel   My Note:   Description: This course deals with the interactions between aerodynamics, dynamics and structures in aerospace systems. Topics covered will include unsteady aerodynamics, finite-state aerodynamic models, classical fixed-wing flutter, rotary-wing aeroelasticity and experimental methods in aeroelasticity. Emphasis will be given to the prediction of flutter and limit cycles in aeroelastic systems Attributes: Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 5:30P-7:00P Sever / 102 Pitt Dec 20 2016 6:00PM - 8:00PM 35 21 0 Actions: Books E37 MEMS 5420 HVAC Analysis and Design I 3.0 Units Details Save  Cancel   My Note:   Description: Fundamentals of heating, ventilating, and air conditioning - moist air properties, the psychrometric chart, classic moist air processes, design procedures for heating and cooling systems. Design of HVAC systems for indoor environmental comfort, health, and energy efficiency. Heat transfer processes in buildings. Development and application of techniques for analysis of heating and cooling loads in buildings, including the use of commercial software. Course special topics can include LEED rating and certification, cleanrooms, aviation, aerospace, and naval applications, ventilation loads, animal control facilities, building automation control, and on-site campus tours of state-of-the-art building energy and environmental systems. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 4:00P-5:30P Cupples II / L015 Brandon, Biggs Dec 21 2016 6:00PM - 8:00PM 30 25 0 Actions: Books E37 MEMS 5423 Sustainable Environmental Building Systems 3.0 Units Details Save  Cancel   My Note:   Description: Sustainable design of building lighting and HVAC systems considering performance, life-cycle cost and downstream environmental impact. Criteria, codes and standards for comfort, air quality, noise/vibration and illumination. Life cycle and other investment methods to integrate energy consumption/conservation, utility rates, initial cost, system/component longevity, maintenance cost and building productivity. Direct and secondary contributions to acid rain, global warming and ozone depletion. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 2:30P-4:00P Duncker / 3 Janis Dec 21 2016 3:30PM - 5:30PM 20 18 0 Actions: Books E37 MEMS 5501 Mechanics of Continua 3.0 Units Details Save  Cancel   My Note:   Description: A broad survey of the general principles governing the mechanics of continuous media. Topics include: general vector and tensor analysis, rigid body motions, deformation, stress and strain rate, large deformation theory, conservation laws of physics, constitutive relations, principles of continuum mechanics and thermodynamics, two-dimensional continua. Prerequisite: ESE 501-502 or instructor's permission. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W---- 4:00P-5:30P Cupples II / L009 Genin Dec 16 2016 6:00PM - 8:00PM 40 31 0 Actions: Books E37 MEMS 5507 Fatigue and Fracture Analysis 3.0 Units Lab Required Details Save  Cancel   My Note:   Description: The course objective is to demonstrate practical methods for computing fatigue life of metallic structural components. The course covers the three major phases of metal fatigue progression: fatigue crack initiation, crack propagation and fracture. Topics include: stress vs. fatigue life analysis, cumulative fatigue damage, linear elastic fracture mechanics, stress intensity factors, damage tolerance analysis, fracture toughness, critical crack size computation and load history development. The course focus is on application of this technology to design against metal fatigue and to prevent structural failure. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W---- 5:30P-7:00P Simon / 023 Perez Dec 19 2016 6:00PM - 8:00PM 35 24 0 Actions: Books Waits Not Allowed A ---R--- 7:00P-8:30P Lopata Hall / 101 Perez Default - none 35 24 0 Actions: Books Waits Not Allowed E37 MEMS 5515 Numerical Simulation in Solid Mechanics I 3.0 Units Lab Required Details Save  Cancel   My Note:   Description: Solution of 2D and 3D elasticity problems using the finite element method. Topics include: linear elasticity; laminated material; stress concentration; stress intensity factor; solution verification; J integral; energy release rate; residual stress; multi-body contact; nonlinear elasticity; plasticity; and buckling. Prerequisite: Graduate standing or permission of instructor. Attributes: Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 5:30P-7:00P Seigle / 205 Actis Dec 20 2016 6:00PM - 8:00PM 25 2 0 Actions: Books Waits Not Allowed A -T-R--- 7:00P-8:00P Seigle / 205 Watkins Default - none 25 2 0 Actions: Books Waits Not Allowed E37 MEMS 5516 Numerical Simulation in Solid Mechanics II 3.0 Units Lab Required Details Save  Cancel   My Note:   Description: Solution of 2D and 3D elasticity problems using the finite element method. Topics include: laminates and compoiste materials; nonlinear elasticity; plasticity; incremental theory of plasticity; residual stress; geometric nonlinearity; membrane and bending load coupling; multi-body contact; stress intensity factor; interference fit; and buckling analysis. Prerequisite: Graduate standing or permission of instructor. Attributes: Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 5:30P-7:00P TBA CANCELED Dec 20 2016 6:00PM - 8:00PM 0 0 0 Desc: Discussion section A follows the lecture in the same room Actions: Books Waits Not Allowed A -T-R--- 7:00P-8:00P TBA CANCELED Default - none 0 0 0 Desc: same room as lectire section 01 Actions: Books Waits Not Allowed E37 MEMS 5565 Mechanobiology of Cells and Matrices 3.0 Units Details Save  Cancel   My Note:   Description: At the interface of the cell and the extracellular matrix, mechanical forces regulate key cellular and molecular events that profoundly affect aspects of human health and disease. This course offers a detailed review of biomechanical inputs that drive cell behavior in physically diverse matrices. In particular, cytoskeletal force-generation machineries, mechanical roles of cell-cell and cell-matrix adhesions, and regulation of matrix deformations are discussed. Also covered are key methods for mechanical measurements and mathematical modeling of cellular response. Implications of matrix-dependent cell motility in cancer metastasis and embryonic development are discussed. Prerequisite: graduate standing or permission of the instructor Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: E62 5565 Frequency: Every 2 Years / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 4:00P-5:30P Sever / 102 Pathak No final 30 22 0 Actions: Books E37 MEMS 5601 Mechanical Behavior of Materials 3.0 Units Details Save  Cancel   My Note:   Description: A materials science based study of mechanical behavior of materials with emphasis on mechanical behavior as affected by processes taking place at the microscopic and/or atomic level. The response of solids to external or internal forces as influenced by inter atomic bonding, crystal/molecular structure, crystalline/non crystalline defects, and material microstructure will be studied. The similarities and differences in the response of different kinds of materials viz., metals and alloys, ceramics, polymers, and composites will be discussed. Topics covered include physical basis of elastic, visco elastic, and plastic deformation of solids; strengthening of crystalline materials; visco elastic deformation of polymers as influenced by molecular structure and morphology of amorphous, crystalline, and fibrous polymers; deformation and fracture of composite materials; mechanisms of creep, fracture and fatigue; high strain-rate deformation of crystalline materials; and deformation of non crystalline materials. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W---- 2:30P-4:00P Cupples I / 115 Flores Dec 19 2016 3:30PM - 5:30PM 45 37 0 Actions: Books E37 MEMS 5602 Non-metallics 3.0 Units Details Save  Cancel   My Note:   Description: Structure, mechanical, and physical properties of ceramics and cermets, with particular emphasis on the use of these materials for space, missile, rocket, high-speed aircraft, nuclear, and solid-state applications. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W---- 7:00P-8:30P Lopata Hall / 202 Sastry Dec 19 2016 8:00PM - 10:00PM 25 5 0 Actions: Books E37 MEMS 5604 Materials Characterization Techniques II 3.0 Units Details Save  Cancel   My Note:   Description: Introduction to crystallography and elements of X-ray physics. Diffraction theory and application to materials science including following topics: reciprocal lattice concept, crystal-structure analysis, Laue methods, rotating crystal methods, powder method, and laboratory methods of crystal analysis. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W---- 4:00P-5:30P Simon / 023 Sastry Dec 16 2016 6:00PM - 8:00PM 25 7 0 Actions: Books E37 MEMS 5605 Mechanical Behavior of Composites 3.0 Units Details Save  Cancel   My Note:   Description: Analysis and mechanics of composite materials. Topics include micromechanics, laminated plate theory, hydrothermal behavior, creep, strength, failure modes, fracture toughness, fatigue, structural response, mechanics of processing, nondestructive evaluation, and test methods. Prerequisite: Permission of the instructor. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T----- 5:30P-8:30P Simon / 023 Renieri No final 38 36 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. E37 MEMS 5607 Introduction to Polymer Blends and Composites 3.0 Units Details Save  Cancel   My Note:   Description: The course covers topics in multicomponent polymer systems (polymer blends and polymer composites) such as: phase separation and miscibility of polymer blends, surfaces and interfaces in composites, microstructure and mechanical behavior, rubber toughened plastics, thermoplastic elastomers, block copolymers, fiber reinforced and laminated composites, techniques of polymer processing with an emphasis on composites processing, melt processing methods such as injection molding and extrusion, solution processing of thin films, selection of suitable processing methods and materials selection criteria for specific applications. Advanced topics include: nanocomposites such as polymer/CNT composites, bioinspired nanocomposites, and current research challenges. Prerequisite: MEMS 3610 or equivalent or permission of instructor. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 5:30P-7:00P Whitaker / 216 Singamaneni Dec 20 2016 6:00PM - 8:00PM 30 17 0 Actions: Books E37 MEMS 5610 Quantitative Materials Science & Engineering 3.0 Units Details Save  Cancel   My Note:   Description: Quantitative Materials Science and Engineering will provide students with the basic mathematical foundation needed to understand primary concepts in Materials Science and Engineering (MSE). The course structure involves introduction of mathematical techniques, including Fourier series, ordinary and partial differential equations, special functions, matrix algebra and vector calculus. The introduction of each technique will be followed by its direct application to fundamental concepts in MSE, which include topics from thermodynamics, kinetics and phase transformations, structure and properties of hard and soft matter and characterization techniques. This course is intended especially for students pursuing graduate study in materials science, but with little background in upper level mathematics. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 4:00P-5:30P Lopata Hall / 103 Banerjee Dec 21 2016 6:00PM - 8:00PM 20 15 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. E37 MEMS 5704 Aircraft Structures 3.0 Units Lab Required Details Save  Cancel   My Note:   Description: Basic elements of the theory of elasticity; application to torsion of prismatic bars with open and closed thin-wall sections; the membrane analogy; the principle of virtual work applied to 2D elasticity problems. Bending, shear and torsion of open and closed thin-wall section beams; principles of stressed skin construction, structural idealization for the stress analysis of wings, ribs and fuselage structures. Margin of safety of fastened connections and fittings. Stability of plates, thin-wall section columns and stiffened panels. Application of the finite element method for the analysis of fastened connections, structural fittings and problems of local stability of aircraft structural components. Attributes: Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W---- 5:30P-7:00P Cupples II / 230 Hawks See instructor 35 19 0 Desc: Discussion section A follows the lecture in the same room Actions: Books A M-W---- 7:00P-8:00P Cupples II / 230 Hawks Default - none 35 19 0 Desc: same room as lectire section 01 Actions: Books Waits Not Allowed E37 MEMS 5801 Micro-Electro-Mechanical Systems I 3.0 Units Lab Required Details Save  Cancel   My Note:   Description: Introduction to MEMS: Microelectromechanical systems (MEMS) are ubiquitous in chemical, biomedical, and industrial (e.g., automotive, aerospace, printing) applications. This course will cover important topics in MEMS design, micro-/nanofabrication, and their implementation in real-world devices. The course will include discussion of fabrication and measurement technologies (e.g., physical/chemical deposition, lithography, wet/dry etching, and packaging), as well as application of MEMS theory to design/fabrication of devices in a cleanroom. Lectures will cover specific processes and how those processes enable the structures needed for accelerometers, gyros, FR filters, digital mirrors, microfluidics, micro total-analysis systems, biomedical implants, etc. The laboratory component will allow students to investigate those processes first-hand by fabricating simple MEMS devices. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M------ 4:00P-5:30P Lopata Hall / 302 Meacham No final 27 20 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. Waits Not Allowed A ----F-- 9:00A-12:00P Rudolph / L35 Meacham Default - none 9 8 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. Waits Not Allowed B ----F-- 2:00P-5:00P Rudolph / L35 Meacham Default - none 9 4 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. Waits Not Allowed C --W---- 4:00P-7:00P Rudolph / L35 Meacham Default - none 9 8 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. Waits Not Allowed E37 MEMS 5804 Engineering Project Management 3.0 Units Details Save  Cancel   My Note:   Description: Basic fundamentals and advanced concepts of engineering project management applicable to projects and programs, both large and small. Project management skills, techniques, systems, software and application of management science principles will be covered and related to research, engineering, architectural, and construction projects from initial evaluations through approval, design, procurement, construction and startup. Attributes: EN: BME T2, TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 --W---- 4:00P-7:00P Whitaker / 218 Gross Dec 16 2016 6:00PM - 8:00PM 0 5 0 Desc: enrollment limited - signup on the wait list and contact Prof Jerina Actions: Books Waits managed by dept. E37 MEMS 5912 Biomechanics Journal Club 1.0 Unit Details Save  Cancel   My Note:   Description: This journal club is intended for graduate students and advanced undergraduates with an interest in biomechanics. We will review landmark and recent publications in areas such as brain, cardiovascular and orthopedic biomechanics, discussing both experimental and modeling approaches. This course will meet once weekly at a time to be arranged. Attributes: EN: TU 1.00 Instruction Type: Classroom instruction Grade Options: CA Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 ----F-- 11:00A-12:00P Cupples II / L007 Okamoto No final 20 9 0 Actions: Books E37 MEMS 597 MEMS Research Rotation 3.0 Units Details Save  Cancel   My Note:   Description: Independent research project that will be determined jointly by the doctoral student and the instructor. Assignments may include background reading, presentations, experiments, theoretical, and/or modeling work. The goal of the course is for the doctoral student to learn the background, principles, and techniques associated with research topics of interest and to determine a mutual fit for the student's eventual doctoral thesis laboratory. Attributes: Instruction Type: Independent study, tutorial, or other Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 04 TBA TBA Singamaneni No final 1 1 0 Actions: Books 05 TBA TBA Banerjee No final 0 0 0 Actions: Books Waits managed by dept. 07 TBA TBA Agonafer No final 1 1 0 Actions: Books 09 TBA TBA Agarwal No final 0 0 0 Actions: Books Waits managed by dept. 10 TBA TBA Bayly No final 0 0 0 Actions: Books Waits managed by dept. 11 TBA TBA Flores No final 0 0 0 Actions: Books Waits managed by dept. 12 TBA TBA Jerina No final 0 0 0 Actions: Books Waits managed by dept. 15 TBA TBA Peters No final 0 0 0 Actions: Books Waits managed by dept. 17 TBA TBA Sastry No final 0 0 0 Actions: Books Waits managed by dept. 20 TBA TBA Lake No final 0 0 0 Actions: Books Waits managed by dept. 21 TBA TBA Pathak No final 2 2 0 Actions: Books 22 TBA TBA Jakiela No final 0 0 0 Actions: Books Waits managed by dept. 23 TBA TBA Genin No final 0 0 0 Actions: Books Waits managed by dept. 25 TBA TBA Wagenseil No final 0 0 0 Actions: Books Waits managed by dept. 34 TBA TBA Meacham No final 0 0 0 Actions: Books Waits managed by dept. E37 MEMS 598 Energy Design Project Var. Units (max = 6.0) Details Save  Cancel   My Note:   Description: Attributes: Instruction Type: Dissertation/Research Grade Options: C Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 09 TBA TBA Agarwal No final 0 0 0 Actions: Books Waits managed by dept. 15 TBA TBA Peters No final 0 0 0 Actions: Books Waits managed by dept. 24 TBA TBA Brandon No final 4 4 0 Actions: Books 36 TBA TBA Yin No final 1 1 0 Actions: Books E37 MEMS 599 Masters Research Var. Units (max = 6.0) Details Save  Cancel   My Note:   Description: Attributes: Instruction Type: Dissertation/Research Grade Options: CU Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 TBA TBA [TBA] Default - none 0 0 0 Actions: Books Waits managed by dept. 02 TBA TBA Wang Default - none 0 0 0 Actions: Books Waits managed by dept. 03 TBA TBA Axelbaum Default - none 0 0 0 Actions: Books Waits managed by dept. 04 TBA TBA Singamaneni Default - none 2 2 0 Actions: Books 05 TBA TBA Banerjee Default - none 1 1 0 Actions: Books Waits Not Allowed 06 TBA TBA Gould Default - none 0 0 0 Actions: Books Waits managed by dept. 07 TBA TBA Hakkinen Default - none 0 0 0 Actions: Books Waits Not Allowed 08 TBA TBA Harmon Default - none 0 0 0 Actions: Books Waits managed by dept. 09 TBA TBA Agarwal Default - none 16 16 0 Actions: Books 10 TBA TBA Bayly Default - none 0 0 0 Actions: Books Waits managed by dept. 11 TBA TBA Flores Default - none 0 0 0 Actions: Books Waits managed by dept. 12 TBA TBA Jerina Default - none 0 0 0 Actions: Books Waits managed by dept. 13 TBA TBA Kelton Default - none 1 1 0 Actions: Books 14 TBA TBA Paris Default - none 0 0 0 Actions: Books Waits managed by dept. 15 TBA TBA Peters Default - none 0 0 0 Actions: Books Waits managed by dept. 16 TBA TBA Harkins Default - none 0 0 0 Actions: Books Waits managed by dept. 17 TBA TBA Sastry Default - none 0 0 0 Actions: Books Waits managed by dept. 18 TBA TBA Avula Default - none 0 0 0 Actions: Books Waits Not Allowed 19 TBA TBA Thoroughman Default - none 0 0 0 Actions: Books Waits managed by dept. 20 TBA TBA Lake Default - none 0 0 0 Actions: Books Waits managed by dept. 21 TBA TBA Pathak Default - none 1 1 0 Actions: Books 22 TBA TBA Jakiela Default - none 0 0 0 Actions: Books Waits managed by dept. 23 TBA TBA Genin Default - none 1 1 0 Actions: Books Waits Not Allowed 24 TBA TBA Brandon Default - none 0 0 0 Actions: Books Waits managed by dept. 25 TBA TBA Wagenseil Default - none 0 0 0 Actions: Books Waits managed by dept. 28 TBA TBA Okamoto Default - none 0 0 0 Actions: Books Waits managed by dept. 29 TBA TBA Moore Default - none 0 0 0 Actions: Books Waits Not Allowed 30 TBA TBA Elson Default - none 0 0 0 Actions: Books Waits managed by dept. 31 TBA TBA Tang Default - none 0 0 0 Actions: Books Waits managed by dept. 32 TBA TBA Tang Default - none 0 0 0 Actions: Books Waits managed by dept. 33 TBA TBA Williams Default - none 0 0 0 Actions: Books Waits managed by dept. 34 TBA TBA Meacham Default - none 1 1 0 Actions: Books 35 TBA TBA Karunamoorthy Default - none 0 0 0 Actions: Books Waits managed by dept. E37 MEMS 600 Doctoral Research Var. Units (max = 9.0) Details Save  Cancel   My Note:   Description: Attributes: Instruction Type: Dissertation/Research Grade Options: CU Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 TBA TBA [TBA] Default - none 0 0 0 Actions: Books Waits managed by dept. 02 TBA TBA Wang Default - none 0 0 0 Actions: Books Waits managed by dept. 03 TBA TBA Axelbaum Default - none 1 1 0 Actions: Books 04 TBA TBA Singamaneni Default - none 1 1 0 Actions: Books 05 TBA TBA Banerjee Default - none 0 0 0 Actions: Books Waits managed by dept. 06 TBA TBA Gould Default - none 0 0 0 Actions: Books Waits managed by dept. 07 TBA TBA Hakkinen Default - none 0 0 0 Actions: Books Waits Not Allowed 08 TBA TBA Harmon Default - none 0 0 0 Actions: Books Waits managed by dept. 09 TBA TBA Agarwal Default - none 6 6 0 Actions: Books 10 TBA TBA Bayly Default - none 2 2 0 Actions: Books 11 TBA TBA Flores Default - none 3 3 0 Actions: Books 12 TBA TBA Jerina Default - none 1 1 0 Actions: Books 13 TBA TBA Kelton Default - none 0 0 0 Actions: Books Waits managed by dept. 14 TBA TBA Paris Default - none 0 0 0 Actions: Books Waits managed by dept. 15 TBA TBA Peters Default - none 3 4 0 Actions: Books 16 TBA TBA Harkins Default - none 0 0 0 Actions: Books Waits managed by dept. 17 TBA TBA Sastry Default - none 0 0 0 Actions: Books Waits managed by dept. 18 TBA TBA Avula Default - none 0 0 0 Actions: Books Waits Not Allowed 19 TBA TBA Thoroughman Default - none 0 0 0 Actions: Books Waits managed by dept. 20 TBA TBA Lake Default - none 2 2 0 Actions: Books 21 TBA TBA Pathak Default - none 1 0 0 Actions: Books 22 TBA TBA Jakiela Default - none 0 0 0 Actions: Books Waits managed by dept. 23 TBA TBA Genin Default - none 0 0 0 Actions: Books Waits managed by dept. 24 TBA TBA Brandon Default - none 0 0 0 Actions: Books Waits managed by dept. 25 TBA TBA Wagenseil Default - none 1 1 0 Actions: Books 28 TBA TBA Okamoto Default - none 0 0 0 Actions: Books Waits managed by dept. 29 TBA TBA Moore Default - none 0 0 0 Actions: Books Waits Not Allowed 30 TBA TBA Elson Default - none 1 1 0 Actions: Books 31 TBA TBA Tang Default - none 1 1 0 Actions: Books 32 TBA TBA Tang Default - none 0 0 0 Actions: Books Waits managed by dept. 33 TBA TBA Williams Default - none 0 0 0 Actions: Books Waits managed by dept. 34 TBA TBA Meacham Default - none 2 2 0 Actions: Books 35 TBA TBA Karunamoorthy Default - none 0 0 0 Actions: Books Waits managed by dept. 37 TBA TBA Harris Default - none 1 1 0 Actions: Books 38 TBA TBA Chen Default - none 1 1 0 Actions: Books E37 MEMS 883 Masters Continuing Student Status 0.0 Unit Details Save  Cancel   My Note:   Description: Attributes: Instruction Type: Independent study, tutorial, or other Grade Options: A Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 TBA TBA Engineering Student Services Default - none 0 2 0 Actions: Books Waits managed by dept. E37 MEMS 884 Doctoral Continuing Student Status 0.0 Unit Details Save  Cancel   My Note:   Description: Attributes: Instruction Type: Dissertation/Research Grade Options: A Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 TBA TBA Engineering Student Services Default - none 0 0 0 Actions: Books Waits managed by dept. E37 MEMS 885 Masters Nonresident 0.0 Unit Details Save  Cancel   My Note:   Description: Attributes: Instruction Type: Independent study, tutorial, or other Grade Options: A Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 TBA TBA Engineering Student Services Default - none 6 7 0 Actions: Books E37 MEMS 886 Doctoral Nonresident 0.0 Unit Details Save  Cancel   My Note:   Description: Attributes: Instruction Type: Dissertation/Research Grade Options: A Fees: Course Type: Home Same As: N/A Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 TBA TBA Engineering Student Services Default - none 0 0 0 Actions: Books Waits managed by dept.