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MECHANICAL ENGINEERING & MATERIALS SCIENCE (E37)  (Dept. Info) Engineering and Applied Science  (Policies) SP2018 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 -T----- 9:00A-11:30A Urbauer / 113 Tapella No Final 12 9 0 Desc: minimum enrollment of 8 required to offer section Actions: Books 02 -T----- 12:00P-2:30P Urbauer / 113 Tapella No Final 12 12 0 Desc: minimum enrollment of 8 required to offer section Actions: Books 03 --W---- 12:30P-3:00P Urbauer / 113 Tapella No Final 12 11 0 Desc: minimum enrollment of 8 required to offer section Actions: Books 04 ---R--- 9:00A-11:30A Urbauer / 113 Tapella No Final 12 11 0 Desc: minimum enrollment of 8 required to offer section Actions: Books 05 ----F-- 12:30P-3:00P Urbauer / 113 Tapella No Final 12 12 0 Desc: minimum enrollment of 8 required to offer section Actions: Books E37 MEMS 101 Introduction to Mechanical Engineering and Mechanical Design 2.0 Units Details Save  Cancel   My Note:   Description: Mechanical engineers face new challenges in the areas of energy, materials and systems. This course introduces students to these areas through team-based, hands-on projects that emphasize engineering design, analysis, and measurement skills. The course is strongly recommended for mechanical engineering majors. Students from other disciplines are welcome and encouraged to enroll. Attributes: EN: TU 2.00 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 Jolley / 110 Okamoto, Asinugo No Final 0 11 0 Desc: Please wait list for this course. Priority will be given to freshmen students. Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. Waits managed by dept. 02 -T-R--- 1:00P-2:30P Jolley / 110 Okamoto, Asinugo No Final 9 6 0 Desc: Please wait list for this course. Priority will be given to freshmen students. Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. 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 M-W---- 1:00P-3:00P Jolley / 2 Woodhams No Final 18 13 0 Desc: minimum enrollment of 12 required to offer section Actions: Books 02 M-W---- 3:00P-5:00P Jolley / 2 Woodhams No Final 18 11 0 Desc: minimum enrollment of 12 required to offer section Actions: Books 03 -T-R--- 9:30A-11:30A Jolley / 2 Woodhams No Final 18 15 0 Desc: minimum enrollment of 12 required to offer section Actions: Books 04 -T-R--- 2:30P-4:30P Jolley / 2 Woodhams No Final 18 15 0 Desc: minimum enrollment of 12 required to offer section Actions: Books E37 MEMS 205 Mechanics and Materials Science Laboratory 2.0 Units Lab Required Details Save  Cancel   My Note:   Description: Laboratory experiments and exercises focusing on mechanical properties of engineering materials; metallography; heat treatment; beam deflection; stress and strain measurement; properties and structure of engineering materials; 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 253 Co-requisite: MEMS 3610 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 ----F-- 1:00P-2:00P McMillan / G052 Sellers, Asinugo May 3 2018 10:30AM - 12:30PM 100 97 0 Actions: Books Waits Not Allowed A M------ 12:00P-2:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed B M------ 2:00P-4:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed C M------ 4:00P-6:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed D -T----- 1:00P-3:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed E -T----- 3:00P-5:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed F -T----- 5:00P-7:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed G --W---- 12:00P-2:00P Jolley / 104 Sellers, Asinugo Default - none 4 2 0 Actions: Books Waits Not Allowed H --W---- 2:00P-4:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed I --W---- 4:00P-6:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed J ---R--- 1:00P-3:00P Jolley / 104 Sellers, Asinugo Default - none 4 5 0 Actions: Books Waits Not Allowed K ---R--- 3:00P-5:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed L ---R--- 5:00P-7:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed M ----F-- 2:00P-4:00P Jolley / 104 Sellers, Asinugo Default - none 4 3 0 Actions: Books Waits Not Allowed N ---R--- 5:00P-7:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed O M------ 12:00P-2:00P Jolley / 104 Sellers, Asinugo Default - none 4 3 0 Actions: Books Waits Not Allowed P M------ 2:00P-4:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed Q -T----- 1:00P-3:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed R -T----- 3:00P-5:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed S --W---- 12:00P-2:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed T --W---- 2:00P-4:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed U ---R--- 1:00P-3:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed V ---R--- 3:00P-5:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed W ----F-- 2:00P-4:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed X -T----- 5:00P-7:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 0 Actions: Books Waits Not Allowed Y --W---- 4:00P-6:00P Jolley / 104 Sellers, Asinugo Default - none 4 4 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. 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 -T-R--- 10:00A-11:30A Lopata Hall / 101 Potter May 4 2018 3:30PM - 5:30PM 90 64 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. E37 MEMS 305 Fluid Mechanics and Heat Transfer Laboratory 2.0 Units Lab Required Details Save  Cancel   My Note:   Description: Laboratory experiments and exercises focusing on fluid properties, flow phenomena, thermal science and heat transfer phenomena; 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 3410 Co-requisite: MEMS 3420 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 Boyd No Final 72 64 0 Actions: Books Waits Not Allowed A M------ 2:00P-4:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed B -T----- 1:00P-3:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed C -T----- 3:00P-5:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed D --W---- 12:00P-2:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed E --W---- 2:00P-4:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed F ---R--- 1:00P-3:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed G ---R--- 3:00P-5:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed H ----F-- 12:00P-2:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed I ----F-- 2:00P-4:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed J M------ 2:00P-4:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed K -T----- 1:00P-3:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed L -T----- 3:00P-5:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed M --W---- 12:00P-2:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed N --W---- 2:00P-4:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed O ---R--- 1:00P-3:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed P ---R--- 3:00P-5:00P Urbauer / 320 Boyd Default - none 0 0 0 Actions: Books Waits Not Allowed Q ----F-- 12:00P-2:00P Urbauer / 320 Boyd Default - none 4 4 0 Actions: Books Waits Not Allowed R ----F-- 2:00P-4:00P Urbauer / 320 Boyd Default - none 0 0 0 Actions: Books Waits Not Allowed E37 MEMS 3110 Machine Elements 3.0 Units Lab Required Details Save  Cancel   My Note:   Description: Overview of the steps in the engineering design process and an introduction to several classes of machine elements such as bearings, gears, belts, brakes, and springs. Underlying analytical models of the machine elements are presented along with guidelines about designing and choosing such elements for practical applications. A case study of the steps of the design process as well as the rationale for choosing particular machine elements is discussed. Prerequisite: MEMS 253 and Corequisite: MEMS 3610 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---- 11:00A-12:00P Lopata Hall / 101 Potter May 8 2018 10:30AM - 12:30PM 92 73 0 Actions: Books Waits Not Allowed A ----F-- 11:00A-12:00P Urbauer / 218 Woodhams Default - none 23 22 0 Actions: Books Waits Not Allowed B ----F-- 11:00A-12:00P Urbauer / 214 Malast Default - none 23 21 0 Actions: Books Waits Not Allowed C ----F-- 11:00A-12:00P Urbauer / 218 Woodhams Default - none 23 23 0 Actions: Books Waits Not Allowed D ----F-- 11:00A-12:00P Urbauer / 214 Malast Default - none 23 7 0 Actions: Books Waits Not Allowed E37 MEMS 3420 Heat Transfer 3.0 Units Lab Required Details Save  Cancel   My Note:   Description: Introductory treatment of the principles of heat transfer by conduction, convection, or radiation; analysis of steady and unsteady conduction with numerical solution methods; analytical and semi empirical methods of forced and natural convection; boiling and condensation heat transfer; and radiation heat transfer. Three evening exams at which attendance is required will be on Wednesday, February 14th, Wednesday, March 28th and Wednesday, April 25th from 6:30-8:30 p.m. Pre-requisites: MEMS 3410 and 301, 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-- 9:00A-10:00A Lopata Hall / 101 Meacham May 4 2018 8:00AM - 10:00AM 96 71 0 Actions: Books Waits Not Allowed A M------ 12:00P-1:00P Crow / 206 Meacham Default - none 32 32 0 Actions: Books Waits Not Allowed B --W---- 12:00P-1:00P Crow / 206 Meacham Default - none 32 28 0 Actions: Books Waits Not Allowed C ----F-- 12:00P-1:00P Crow / 206 Meacham Default - none 32 11 0 Actions: Books Waits Not Allowed E37 MEMS 350 Engineering Mechanics III 3.0 Units Details Save  Cancel   My Note:   Description: 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, 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 differential equations will be used. Prerequisite MEMS 253; Corequisite ESE 318; MEMS 255 not required. 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-- 11:00A-12:00P Wrighton / 250 Sellers May 3 2018 3:30PM - 5:30PM 36 31 0 Actions: Books Waits Not Allowed 02 M-W-F-- 12:00P-1:00P Wrighton / 250 Sellers May 3 2018 3:30PM - 5:30PM 36 27 0 Actions: Books Waits Not Allowed E37 MEMS 3601 Materials Engineering 3.0 Units Details Save  Cancel   My Note:   Description: The application of fundamental materials science principles in engineering disciplines. Topics include: design of new materials having unique property combinations, selection of materials for use in specific service environment, prediction of materials performance under service conditions, development of processes to produce materials with improved properties, structural and functional use of metals, polymers, ceramics, and composites. 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 Lopata Hall / 202 Sastry May 7 2018 3:30PM - 5:30PM 20 8 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 and 151 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 Brown / 118 Flores May 7 2018 10:30AM - 12:30PM 100 93 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. Students must complete the Independent Study Approval Form available in the department office. 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 03 TBA TBA Axelbaum Default - none 0 0 0 Actions: Books Waits managed by dept. 04 TBA TBA Singamaneni Default - none 0 0 0 Actions: Books Waits managed by dept. 05 TBA TBA Banerjee Default - none 0 0 0 Actions: Books Waits managed by dept. 06 TBA TBA Mishra Default - none 0 0 0 Actions: Books Waits managed by dept. 07 TBA TBA Agonafer Default - none 0 0 0 Actions: Books Waits managed by dept. 08 TBA TBA Pitt Default - none 0 0 0 Actions: Books Waits managed by dept. 09 TBA TBA Agarwal Default - none 1 1 0 Actions: Books 10 TBA TBA Bayly Default - none 0 0 0 Actions: Books Waits managed by dept. 11 TBA TBA Flores Default - none 1 0 0 Actions: Books 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 Weisensee 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 Woodhams Default - none 1 1 0 Actions: Books 17 TBA TBA Sastry 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 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 3 2 0 Actions: Books 24 TBA TBA Brandon Default - none 0 0 0 Actions: Books Waits managed by dept. 25 TBA TBA Wagenseil Default - none 2 2 0 Actions: Books 28 TBA TBA Okamoto Default - none 0 0 0 Actions: Books Waits managed by dept. 30 TBA TBA Elson Default - none 0 0 0 Actions: Books Waits managed by dept. 31 TBA TBA Tang, Yinjie Default - none 0 0 0 Actions: Books Waits managed by dept. 32 TBA TBA Tang, Simon Default - none 0 0 0 Actions: Books Waits managed by dept. 34 TBA TBA Meacham Default - none 0 0 0 Actions: Books Waits managed by dept. 35 TBA TBA Karunamoorthy Default - none 0 0 0 Actions: Books Waits managed by dept. 37 TBA TBA Boyd Default - none 0 0 0 Actions: Books Waits managed by dept. E37 MEMS 4001 Fundamentals of Engineering Review 1.0 Unit Details Save  Cancel   My Note:   Description: A review and preparation of the most recent NCEES Fundamentals of Engineering (FE) Exam specifications is offered in a classroom setting. Exam strategies will be illustrated using examples. The main topics for the review include: engineering mathematics, statics, dynamics, thermodynamics, heat transfer, mechanical design and analysis, material science and engineering economics. A discussion of the importance and responsibilities of professional engineering licensure along with Ethics will be included. Attributes: Instruction Type: Classroom instruction Grade Options: PA Fees: Course Type: Home Same As: E35 401 Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 --W---- 8:00P-10:00P Lopata Hall / 101 Becnel Exam Last Day of Class 30 13 0 Actions: Books E37 MEMS 412 Design of Thermal Systems 3.0 Units Details Save  Cancel   My Note:   Description: Analysis and design of advanced thermo-fluid systems. Student teams participate in a design process, which involves research, design synthesis, codes, standards, engineering economics, a design project, and formal presentations. Topics include power and refrigeration systems with phase change, power systems with gaseous working fluids, gas mixtures, thermodynamic relations, chemical reactions, and energy systems. Prerequisite MEMS 301 Thermodynamics 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 Lopata Hall / 101 Weisensee May 4 2018 1:00PM - 3:00PM 80 75 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. E37 MEMS 424 Introduction to Finite Element Methods in Structural Analysis 3.0 Units Details Save  Cancel   My Note:   Description: Application of finite element methods to beams, frames, trusses and other structural components. Modeling techniques used for different types of problems engineers solve. In addition, the approach of applied loads, boundary conditions, deflections and internal loads used for stress analysis across different industries. The application of matrix methods, energy concepts and structural mechanics to the development of finite element modeling methods are foundational topics. Prerequisites: MEMS 253, MEMS 350 and 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: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T-R--- 5:30P-7:00P Cupples I / 207 Watkins May 8 2018 6:00PM - 8:00PM 35 20 0 Actions: Books E37 MEMS 4301 Modeling, Simulation and Control 3.0 Units Details Save  Cancel   My Note:   Description: Introduction to simulation and control concepts. Topics include: block diagram representation of single-and multiloop systems, control system components, transient and steady-state performance, stability analysis, Nyquist, Bode, and root locus diagrams, compensation using lead, lag and lead-lag networks, design synthesis by Bode plots and root-locus diagrams, state-variable techniques, state-transition matrix, state-variable feedback. Prerequisite: 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 McMillan / G052 Karunamoorthy May 3 2018 8:00AM - 10:00AM 70 69 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. 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 department chair. Students must complete the Independent Study Approval Form available in the department office. 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 Wang Default - none 0 0 0 Actions: Books Waits managed by dept. 03 TBA TBA Axelbaum Default - none 0 1 0 Actions: Books Waits managed by dept. 04 TBA TBA Singamaneni Default - none 0 0 0 Actions: Books Waits managed by dept. 05 TBA TBA Banerjee Default - none 0 0 0 Actions: Books Waits managed by dept. 06 TBA TBA Mishra Default - none 0 0 0 Actions: Books Waits managed by dept. 07 TBA TBA Agonafer Default - none 0 0 0 Actions: Books Waits managed by dept. 08 TBA TBA Pitt Default - none 0 1 0 Actions: Books Waits managed by dept. 09 TBA TBA Agarwal Default - none 2 2 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 1 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 Weisensee 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. 17 TBA TBA Sastry 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. 22 TBA TBA Jakiela Default - none 1 1 0 Actions: Books 23 TBA TBA Genin Default - none 2 2 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. 30 TBA TBA Elson Default - none 0 0 0 Actions: Books Waits managed by dept. 31 TBA TBA Tang, Yinjie Default - none 0 0 0 Actions: Books Waits managed by dept. 32 TBA TBA Tang, Simon 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. 37 TBA TBA Boyd Default - none 0 0 0 Actions: Books Waits managed by dept. 38 TBA TBA Sellers Default - none 0 0 0 Actions: Books Waits managed by dept. E37 MEMS 5001 Optimization Methods in Engineering 3.0 Units Details Save  Cancel   My Note:   Description: Analytical methods in design. Topics include: mathematical methods, linear and nonlinear programming, optimality criteria, fully stressed techniques for the design of structures and machine components, topological optimization, search techniques and genetic algorithms. Calculus and computer programming are prerequisites. 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 McMillan / G052 Jakiela No Final 45 36 0 Actions: Books 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 Weisensee No Final 90 89 0 Actions: Books E37 MEMS 5302 Theory of Vibrations 3.0 Units Details Save  Cancel   My Note:   Description: Analytical methods in vibrations. Topics include: Duhamel's integral, Laplace and Fourier transforms, and Fourier series with applications to transient response, forced response, and vibration isolation, Lagrange's equations for linear systems, discrete systems, degrees of freedom, reducible coordinates, holonomic constraints, and virtual work, matrix methods and state variable approach with applications to frequencies and modes, stability, and dynamic response in terms of real and complex modal expansions, dynamic response of continuous systems by theory of partial differential equations, Rayleigh-Ritz and Galerkin energy methods, finite difference and finite element algorithms. 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 Cupples I / 218 Pitt May 7 2018 6:00PM - 8:00PM 30 23 0 Actions: Books E37 MEMS 5403 Conduction and Convection Heat Transfer 3.0 Units Details Save  Cancel   My Note:   Description: This course examines heat conduction and convection through various fundamental problems that are constructed from the traditional conservation laws for mass, momentum, and energy. Problems include the variable-area fin, the unsteady Dirichlet, Robbins, and Rayleigh problems, multi-dimensional steady conduction, the Couette flow problem, duct convection, and boundary layer convection. Though some numerics are discussed, emphasis is on mathematical technique and includes the extended power series method, similarity reduction, separation of variables, integral transforms, and approximate integral methods. 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--- 7:00P-8:30P Sever / 102 Wendl May 8 2018 8:00PM - 10:00PM 30 18 0 Actions: Books E37 MEMS 5411 Fluid Dynamics II 3.0 Units Details Save  Cancel   My Note:   Description: Governing equations and thermodynamics relations for compressible flow. Topics include: kinetic theory of gases, steady, one-dimensional flows with friction and heat transfer, shock waves, Rankine-Hugoniot relations, oblique shocks, reflections from walls and flow interfaces, expansion waves, Prandtl-Meyer flow, flow in nozzles, diffusers and inlets, two-and three dimensional flows, perturbation methods, similarity rules, compressible laminar and turbulent boundary layers, acoustic phenomena. Emphasis is relevant to air vehicles. 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 / 101 Cary May 7 2018 6:00PM - 8:00PM 25 9 0 Actions: Books E37 MEMS 5421 HVAC Analysis and Design II 3.0 Units Details Save  Cancel   My Note:   Description: Fundamentals of heating, ventilating, and air conditioning - energy analysis and building simulation, design procedures for building water piping systems, centrifugal pump performance, design of building air duct systems, fan performance, optimum space air diffuser design for comfort, analysis of humidification and dehumidification systems, and advanced analysis of refrigeration systems. HVAC analytical techniques will include the use of commercial software. Course special topics can include LEED rating and certification, management for energy efficiency, energy auditing calculations, aviation, aerospace, and naval applications, ventilation loads, 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 No Final 35 27 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--- 5:30P-7:00P Cupples II / L009 Janis May 8 2018 6:00PM - 8:00PM 10 13 0 Actions: Books E37 MEMS 5425 Thermal Management of Electronics 3.0 Units Details Save  Cancel   My Note:   Description: As the demand for higher performance electronics continues its exponential growth, transistor density doubles every 18 to 24 months. Electronic devices with high transistor density generate heat and thus require thermal management to improve reliability and prevent premature failure. Demanding performance specifications result in increased package density, higher heat loads and novel thermal management technology. This course gives an overview of thermal management for micro/power electronics systems and helps engineers to develop a fundamental understanding of emerging thermal technologies. This course will include the following topics: Background of electronics packaging; thermal design of heat sinks; single phase and multiphase flow in thermal systems; Two-phase heat exchange devices for portable and high powered electronic systems; Computational fluid dynamics for design of thermal systems. Prerequisites: Senior or graduate standing. 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 / 302 Agonafer May 9 2018 6:00PM - 8:00PM 20 2 0 Actions: Books E37 MEMS 5506 Experimental Methods in Solid Mechanics 3.0 Units Lab Required Details Save  Cancel   My Note:   Description: Current experimental methods to measure mechanical properties of materials will be covered. Lectures include theoretical principles, measurement considerations, data acquisition and analysis techniques. Lectures are complemented by laboratory sections using research equipment such as biaxial testing machines, pressure myographs, indentation devices for different scales, and viscometers. 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------ 8:30A-10:00A Cupples II / 200 Wagenseil No Final 20 3 0 Actions: Books Waits Not Allowed A --W---- 9:00A-12:00P Jolley / 103 Wagenseil Default - none 20 3 0 Actions: Books Waits Not Allowed E37 MEMS 5564 Orthopaedic Biomechanics-Cartilage/Tendon 3.0 Units Details Save  Cancel   My Note:   Description: Basic and advanced viscoelasticity and finite strain analysis applied to the musculoskeletal system, with a primary focus on soft orthopaedic tissues (cartilage, tendon, and ligament). Topics include: mechanical properties of cartilage, tendon, and ligament; applied viscoelasticity theory for cartilage, tendon, and ligament; cartilage, tendon, and ligament biology; tendon and ligament wound healing; osteoarthritis. This class is geared to graduate students and upper level undergraduates familiar with statics and mechanics of deformable bodies. Prerequisites: BME 240 or equivalent. Note: BME 590Z (463/563) Orthopaedic Biomechanics--Bones and Joints is NOT a prerequisite. Attributes: EN: TU 3.00 Instruction Type: Classroom instruction Grade Options: C Fees: Course Type: Home Same As: E62 464  E62 564 Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 M-W---- 2:30P-4:00P Cupples II / L015 Lake May 7 2018 3:30PM - 5:30PM 50 43 0 Actions: Books E37 MEMS 5566 Engineering Mechanobiology 3.0 Units Details Save  Cancel   My Note:   Description: Engineering Mechanobiology is a new paradigm for understanding and manipulating the biological function of plants, animals, and their cells. Mechanical force has emerged as a critical component of all biological systems, providing mechanisms to sculpt plants and animals during morphogenesis, to enable cell migration, polarization, proliferation, and differentiation in response to physical changes in the environment, and to modulate the function of single molecules. This course provides a foundation for understanding these factors across plant and animal cells. The course begins with an introduction to plant and animal cell biology and principles of signaling, then progresses to an overview of the cell wall and ECM and an introduction to the mechanics and statistical mechanics of solid, viscoelastic, and fibrous continua. The course then focuses on the questions of how do cells feel, how do cells converse with the ECM and wall, and how do cells remember? Prerequisites: Undergraduate calculus and physics 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--- 9:00A-10:30A Rudolph / 203 Genin May 4 2018 1:00PM - 3:00PM 40 38 0 Actions: Books E37 MEMS 5603 Materials Characterization Techniques I 3.0 Units Details Save  Cancel   My Note:   Description: An introduction to the basic theory and instrumentation used in transmission electron, scanning electron, and optical microscopy. Practical laboratory experience in equipment operations, experimental procedures, and material characterization. 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 Cupples I / 215 Sastry May 7 2018 6:00PM - 8:00PM 40 33 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: 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----- 5:30P-8:30P Simon / 017 Renieri No Final 40 40 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. E37 MEMS 5606 Soft Nanomaterials 3.0 Units Details Save  Cancel   My Note:   Description: Soft nanomaterials, which range from self-assembled monolayers (SAMs) to complex 3D polymer structures, are gaining increased attention owing to their broad range applications. The course intends to introduce the fundamental aspects of nanotechnology pertained to soft matter. Various aspects related to the design, fabrication, characterization and application of soft nanomaterials will be discussed. Topics that will be covered include but not limited to SAMs, polymer brushes, Layer-by-Layer assembly, responsive polymers structures (films, capsules), polymer nanocomposites, biomolecules as nanomaterials and soft lithography. 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 / 101 Singamaneni May 9 2018 6:00PM - 8:00PM 42 24 0 Actions: Books E37 MEMS 5611 Principles and Methods of Micro and Nanofabrication 3.0 Units Lab Required Details Save  Cancel   My Note:   Description: A hands-on introduction to the fundamentals of micro- and nano-fabrication processes with emphasis on cleanroom practices. The physical principles of oxidation, optical lithography, thin film deposition, etching and metrology methods will be discussed, demonstrated and practiced. Students will be trained in cleanroom concepts and safety protocols. Sequential micro-fabrication processes involved in the manufacture of microelectronic and photonic devices will be shown. Training in imaging and characterization of micro- and nano-structures will be provided. Prereqs: graduate or senior 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: E44 595 Frequency: None / History Sec Days       Time Building / Room Instructor Final Exam Seats Enroll Waits 01 -T----- 10:00A-11:30A Lopata Hall / 103 Banerjee May 8 2018 6:00PM - 8:00PM 24 23 0 Actions: Books A ---R--- 1:00P-4:00P Rudolph / L78 Banerjee Default - none 8 7 0 Actions: Books Waits Not Allowed B ----F-- 10:00A-1:00P Rudolph / L78 Banerjee Default - none 8 8 0 Actions: Books Waits Not Allowed C ----F-- 2:00P-5:00P Rudolph / L78 Banerjee Default - none 8 8 0 Actions: Books Waits Not Allowed E37 MEMS 5612 Atomistic Modeling of Materials 3.0 Units Details Save  Cancel   My Note:   Description: This course will provide a hands-on experience using atomic scale computational methods to model, understand and predict the properties of real materials. It will cover modeling using classical force-fields, quantum-mechanical electronic structure methods such as density functional theory, molecular dynamics simulations, and Monte Carlo methods. The basic background of these methods along with examples of their use for calculating properties of real materials will be covered in the lectures. Atomistic materials modeling codes will be used to calculate various material properties. Prerequisites: 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 M-W---- 2:30P-4:00P Urbauer / 222 Mishra May 7 2018 3:30PM - 5:30PM 15 11 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. E37 MEMS 5700 Aerodynamics 3.0 Units Details Save  Cancel   My Note:   Description: Fundamental concepts of aerodynamics, equations of compressible flows, irrotational flows and potential flow theory, singularity solutions, circulation and vorticity, Kutta-Joukowski theorem, thin airfoil theory, finite wing theory, slender body theory, subsonic compressible flow and Prandtl-Glauert rule , supersonic thin airfoil theory, introduction to performance, basic concepts of airfoil design. 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 -T-R--- 4:00P-5:30P Mallinckrodt / 305 Agarwal May 8 2018 6:00PM - 8:00PM 40 24 0 Actions: Books E37 MEMS 5701 Aerospace Propulsion 3.0 Units Details Save  Cancel   My Note:   Description: Propeller, jet, ramjet and rocket propulsion. Topics include: fundamentals of propulsion systems, gas turbine engines, thermodynamics and compressible flow, one-dimensional gas dynamics, analysis of engine performance, air breathing propulsion system, the analysis and design of engine components, and the fundamentals of ramjet and rocket propulsion. 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 Sever / 102 Dyer May 4 2018 6:00PM - 8:00PM 35 9 0 Actions: Books E37 MEMS 5703 Analysis of Rotary-Wing Systems 3.0 Units Details Save  Cancel   My Note:   Description: This course introduces the basic physical principles that govern the dynamics and aerodynamics of helicopters, fans and wind turbines. Simplified equations are developed to illustrate these principles, and the student is introduced to the fundamental analysis tools required for their solution. Topics include: harmonic balance, Floquet theory and perturbation methods. 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 Crow / 204 Peters May 7 2018 8:00PM - 10:00PM 60 42 0 Actions: Books E37 MEMS 5705 Wind Energy Systems 3.0 Units Details Save  Cancel   My Note:   Description: A comprehensive introduction to wind energy systems, a practical means of extracting green and sustainable energy. Topics include: a historical perspective of wind turbines; horizontal axis and vertical axis wind turbines; the basic parameters such as power rating and efficiency; the structural components ranging from blade and hub to nacelle and tower; wind turbine aerodynamics, aeroelasticity and control systems; blade fatigue; statistical wind modeling; unsteady airfoil aerodynamics and downstream wake; and environmental considerations such as noise and aesthetics. Prerequisite: senior or graduate standing in engineering, 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 M-W---- 4:00P-5:30P Lopata Hall / 101 Karunamoorthy See Instructor 60 56 0 Actions: Books Syllabus Syllabi are provided to students to support their course planning; refer to the syllabus for constraints on use. 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 03 TBA TBA Axelbaum No Final 1 1 0 Actions: Books 04 TBA TBA Singamaneni No Final 0 0 0 Actions: Books Waits managed by dept. 05 TBA TBA Banerjee No Final 0 0 0 Actions: Books Waits managed by dept. 06 TBA TBA Mishra No Final 0 0 0 Actions: Books Waits managed by dept. 07 TBA TBA Agonafer No Final 0 0 0 Actions: Books Waits managed by dept. 09 TBA TBA Agarwal No Final 0 0 0 Actions: Books Waits managed by dept. 10 TBA TBA Bayly No Final 1 1 0 Actions: Books 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. 14 TBA TBA Weisensee No Final 2 2 0 Actions: Books 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 0 0 0 Actions: Books Waits managed by dept. 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 1 1 0 Actions: Books 32 TBA TBA Tang No Final 2 2 0 Actions: Books 34 TBA TBA Meacham No Final 3 2 0 Actions: Books 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 7 7 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 0 0 0 Actions: Books Waits managed by dept. 05 TBA TBA Banerjee Default - none 0 0 0 Actions: Books Waits managed by dept. 06 TBA TBA Mishra Default - none 0 0 0 Actions: Books Waits managed by dept. 07 TBA TBA Agonafer Default - none 0 0 0 Actions: Books Waits managed by dept. 08 TBA TBA Pitt Default - none 1 0 0 Actions: Books 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 Weisensee 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. 17 TBA TBA Sastry Default - none 1 1 0 Actions: Books 18 TBA TBA Bai Default - none 1 1 0 Actions: Books 20 TBA TBA Lake 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 4 3 0 Actions: Books 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 D'Arcy No Final 999 0 0 Actions: Books 30 TBA TBA Elson Default - none 0 0 0 Actions: Books Waits managed by dept. 31 TBA TBA Tang, Yinjie Default - none 0 0 0 Actions: Books Waits managed by dept. 32 TBA TBA Tang, Simon Default - none 2 1 0 Actions: Books 33 TBA TBA Williams Default - none 0 0 0 Actions: Books Waits managed by dept. 34 TBA TBA Meacham Default - none 2 1 0 Actions: Books 35 TBA TBA Karunamoorthy Default - none 0 0 0 Actions: Books Waits managed by dept. 39 TBA TBA Zayed Default - none 0 1 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 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 3 3 0 Actions: Books 05 TBA TBA Banerjee Default - none 0 0 0 Actions: Books Waits managed by dept. 06 TBA TBA Mishra Default - none 0 0 0 Actions: Books Waits managed by dept. 07 TBA TBA Agonafer Default - none 1 1 0 Actions: Books 08 TBA TBA Pitt Default - none 0 0 0 Actions: Books Waits managed by dept. 09 TBA TBA Agarwal Default - none 3 3 0 Actions: Books 10 TBA TBA Bayly Default - none 1 1 0 Actions: Books 11 TBA TBA Flores Default - none 2 2 0 Actions: Books 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 Weisensee Default - none 0 0 0 Actions: Books Waits managed by dept. 15 TBA TBA Peters Default - none 2 2 0 Actions: Books 17 TBA TBA Sastry 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 2 2 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. 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. 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 1 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 Laudel 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 Laudel 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 Laudel Default - none 3 3 0 Actions: Books