**Course Listings:**

The University reserves the right to revise any information listed in this timetable of classes.

## Aerospace Engineering

SEC.

001 CRN 33731 Acharya

002 CRN 33732 Gragston

003 CRN 33733 Johnson

004 CRN 33734 Kreth

005 CRN 33735 Moeller

012 CRN 23948 Palies

013 CRN 23949 Schmisseur

014 CRN 23950 Zhao

Grading Restriction: P/NP only.

Repeatability: May be repeated.

Credit Level Restriction: Graduate credit only.

Registration Restriction(s): Minimum student level – graduate.

SEC. 002 CRN 23959 Moeller

Required for the student not otherwise registered during any semester when student uses university facilities and/or faculty time before degree is completed.

Grading Restriction: Satisfactory/No Credit grading only.

Repeatability: May be repeated.

Credit Restriction: May not be used toward degree requirements.

Credit Level Restriction: Graduate credit only.

Registration Restriction(s): Minimum student level – graduate.

SEC. 001 CRN 36867 (Same as ME 504 005 CRN 36872 & BME 504 003 CRN 36869)

TEXT: None

TIME: Monday & Wednesday 11:55 – 1:10 E-113

PROF: Ragini Acharya

Provides a foundational knowledge of uncertainty and propagation, quantification methodologies. It consists of 2 modules: I: Probability Concepts, Basic Statistical Operations, and Set Operations and II: Probabilistic UQ Methods with introduction to non-Probabilistic Methods.

Cross-listed: (Same as Biomedical Engineering 504 and Mechanical Engineering 504.)

*SEC. 001 CRN 23960*

TEXT: Viscous Fluid Flow; Frank M. White; McGraw Hill; 3^{rd} Edition; ISBN 0072402318

TIME: Tuesday & Thursday 3:05 – 4:20 Online

PROF: Mark Gragston

Derivation of fundamental equations of compressible viscous flow; boundary conditions for viscous heat-conducting flow; exact solutions for Newtonian viscous flow (Navier-Stokes) equations for special cases; similarity solutions. Thermal boundary layers, stability of laminar flows, transition to turbulence, 2-D turbulent boundary layer equations. Incompressible-turbulent mean flow, and compressible boundary layer flow.

Registration Permission: Consent of instructor.

SEC. 001 CRN 34284 (Same as ME 516 001 CRN 34868)

*TEXT: *Random Data: Analysis and Measurement Procedures; Julius S. Bendat and Allan G. Piersol; Wiley; 4^{th} Ed.; ISBN 978-0-470-24877-5

TIME: Monday & Wednesday 8:45 – 10:00 E-111

PROF: Phil Kreth

Various tools and techniques used in the analysis of random data. Data classification; statistics and probability; spectral and correlation functions; data acquisition fundamentals; input-output system models; and an introduction to modern data analysis procedures.

Cross-listed: (Same as: Mechanical Engineering 516.)

(DE) Prerequisite(s): Undergrad degree in engineering. Consent of instructor.

Recommended Background: Logic-based programming knowledge (preferably within MATLAB) and some laboratory research.

SEC 001 CRN 36832 (Same as ME 526 002 CRN 37097)

TEXT: Stabilization and Dynamic of Premixed Swirling Flames; Paul Palies; Elsevier Academic Press; 1^{st} Edition; ISBN 978-0-12-819996-1

TIME: Tuesday & Thursday 10:20 – 11:35 E-113

PROF: Paul Palies

Focuses on combustion dynamics and unsteady combustion process in gas turbine engines for commercial aviation. The goal is to describe the fundamentals of combustion processes at work in these propulsion systems including turbulent combustion and combustion instability. A major emphasis is on flame stabilization and combustion dynamics. Flame stabilization includes non-reacting flow processes and chemical reactions complexities associated to the flame front which are described. Combustion dynamics include phenomenon such as flashback, combustion oscillation, and blowoff. Elements of analytical, computational modeling and experimental measurements in the field are introduced and discussed. The operation and principles of gas turbines engines are also described. Finally, the perspective for research and development are outlined and include clean propulsion, sustainable aviation fuel, premixed combustion, and hydrogen combustion. Some of the materials presented in this course are also relevant to other combustion and propulsion systems (fighter aircraft and rocket engines) and will be discussed too.

Cross-listed: (Same as Mechanical Engineering 526.)

Recommended Background: Mechanical Engineering 525 – Combustion and Chemically Reacting Flows I.

SEC. 001 CRN 28542

TEXT: Physics of Electric Propulsion (textbook is available from Amazon.com); Robert G. Jahn; Dover Publications; ISBN 10:0486450406; 13: 978-0486450407

TIME: Tuesday & Thursday 1:30 – 2:45 E-113

PROF: Trevor Moeller

Engineering concepts of electric propulsion and its application to modern satellites and deep space probes. Topics include physical principles, practical designs, and performance levels of electrically-powered space propulsion thrusters including: ion engines; pulsed and steady-state (fixed field) plasma and MHD thrusters, including Hall Thrusters, and others.

Recommended Background: Rocket propulsion.

Registration Permission: Consent of Instructor.

SEC.

001 CRN 23965 Acharya

002 CRN 33737 Gragston

003 CRN 33738 Johnson

004 CRN 33739 Kreth

005 CRN 33740 Moeller

007 CRN 25292 Palies

012 CRN 35544 Schmisseur

013 CRN 35545 Zhao

Repeatability: May be repeated. Maximum 6 hours.

Comment(s): Enrollment limited to students in problems option.

Registration Permission: Consent of advisor.

SEC.

001 CRN 23969 (Same as ME 599 013 CRN 27651)

TEXT: Combustion; Irvin Glassman, R.A. Yetter, N.G. Glumac; Academic Press, 2014; 5^{th} Edition; ISBN 978-0-12-407913-7

TIME: Tuesday & Thursday 10:20 – 11:35 Online

PROF: Peng Zhao

This course will focus on the chemical kinetics aspect of fuel science and emission control. This course will cover chemical thermodynamics, chemical kinetics, model reduction, ignition chemistry, flame chemistry, detonation, solid fuels, catalytic combustion, NOx and soot formation.

Repeatability: May be repeated. Maximum 9 hours.

Credit Restriction: Students cannot receive credit for more than 9 hours combined of Aerospace Engineering 599, Biomedical Engineering 599, and Mechanical Engineering 599.

Registration Permission: Consent of instructor.

SEC. 003 CRN 26620 (Same as ME 599 030 CRN 33099)

TEXT: None

TIME: Monday & Wednesday 10:20 – 11:35 E-111

PROF: Milt Davis

Topics.

- Provide a Fundamental Understanding of Aerospace Ground Test Simulation and Facilities
- How Ground Testing Provides Accurate Engineering Information
- Application of GT Information to Aerospace System
- Applicable Analysis Techniques
- Suitable Measurement Systems

Repeatability: May be repeated. Maximum 9 hours.

Credit Restriction: Students cannot receive credit for more than 9 hours combined of Aerospace Engineering 599, Biomedical Engineering 599, and Mechanical Engineering 599.

Registration Permission: Consent of instructor.

SEC.

005 CRN 25163 (Same as ME 599 015 CRN 28672 and BME 599 005 CRN 25957)

TEXT: None

TIME: Monday, Wednesday, & Friday 10:30 – 11:20 Online

PROF: Jackie Johnson

- Interaction of x-rays with matter.
- The production and physics of synchrotron and X-ray Free Electron Laser radiation.
- X-ray optics, beamlines, and instrumentation.
- X-ray diffraction and scattering.
- UV and x-ray spectroscopies.
- X -ray imaging (mainly tomography and lensless imaging/ptychography).
- Phasing techniques in macromolecular crystallography.
- General user proposal system.

Repeatability: May be repeated. Maximum 9 hours.

Credit Restriction: Students cannot receive credit for more than 9 hours combined of Aerospace Engineering 599, Biomedical Engineering 599, and Mechanical Engineering 599.

Registration Permission: Consent of instructor.

SEC. 030 CRN 36880 (Same as ME 599 017 CRN 36878)

TEXT: TBD

TIME: Tuesday & Thursday 10:20 – 11:35 E-110

PROF: Damiano Baccarella

Credit Restriction: Students cannot receive credit for more than 9 hours combined of Aerospace Engineering 599, Biomedical Engineering 599, and Mechanical Engineering 599.

Registration Permission: Consent of instructor.

SEC.

010 CRN 23980 Acharya

013 CRN 23983 Gragston

015 CRN 25295 Johnson

016 CRN 33741 Kreth

017 CRN 33742 Moeller

018 CRN 35547 Palies

019 CRN 35548 Schmisseur

020 CRN 35549 Zhao

Grading Restriction: P/NP only.

Repeatability: May be repeated.

Registration Restriction(s): Minimum student level – graduate.

SEC. 002 CRN 28551

TEXT: TBD

TIME: TBD

PROF: Jeffrey Reinbolt

Methods of planning and conducting original research and proposal writing.

Grading Restriction: Satisfactory/No Credit grading only.

Repeatability: Maximum 6 hours. May be repeated once.

Registration Restriction(s): Minimum student level – graduate / doctoral students.

Registration Permission: Departmental approval.

SEC. 004 CRN 26835

TEXT: None

TIME: Monday, Wednesday & Friday 3:10 – 4:00 Online

PROF: Mark Gragston

Optics and optical measurements play an increasingly important role in various aspects of modern engineering, such as the design of sensors for automation, instrumentation for biomedical diagnostics, and for precise measurements of high-speed gas flows in wind tunnels. This course aims to provide basic knowledge of light, optical components, lasers, and the use of light for engineering measurements.

Repeatability: May be repeated. Maximum 9 hours.

Registration Restriction(s): Minimum student level – graduate.

Registration Permission: Consent of instructor.

SEC. 006 CRN 31012

TEXT: Computational Aeroacoustics – A Wave Number Approach; Christopher Tam; Cambridge Press University; ISBN 9780511802065

TIME: Tuesday & Thursday 3:05 – 4:20 Online

PROF: Paul Palies

Course description: This course focuses on aeroacoustics and combustion noise for aerospace systems. The goals are to (i) describe aeroacoustics processes and sources with experiment, numerical and theoretical examples, (ii) derive existing theories for sound propagation modeling, (iii) understand and implement computational aeroacoustics on canonical examples. The next step is on combustion noise which can be associated with the aeroacoustics of reactive systems. Examples from literature are discussed and the underlying modeling strategy presented as well as the derivation made. This novel Advanced Topics proposes to describe and understand known aeroacoustics theories and their utilization in both non-reacting and reacting conditions. This is a three-credit hour course.

Repeatability: May be repeated. Maximum 9 hours.

Registration Restriction(s): Minimum student level – graduate.

Registration Permission: Consent of instructor.

SEC. 010 CRN 36398

TEXT: None

TIME: Monday & Wednesday 1:30 – 2:45 E-113

PROF: Ragini Acharya

This course will have three modules: I: Brief recap of turbulence, combustion, and compressible governing equations; II: Turbulence-Shock Interaction, Turbulence-Chemistry Interactions, curved shocks, shocklets, compressiblity effects on homogeneous and inhomogeneous turbulence, effects of non-unity Prandtl numbers; III: Sub-grid scale modeling: turbulent-combustion models for premixed and non-premixed combustion.

Repeatability: May be repeated. Maximum 9 hours.

Registration Restriction(s): Minimum student level – graduate.

Registration Permission: Consent of instructor.

## Biomedical Engineering

SEC. 012 CRN 25804 Johnson

Grading Restriction: P/NP only.

Repeatability: May be repeated.

Credit Level Restriction: Graduate credit only.

Registration Restriction(s): Minimum student level – graduate.

SEC. 002 CRN 83605 Johnson

Required for the student not otherwise registered during any semester when student uses university facilities and/or faculty time before degree is completed.

Grading Restriction: Satisfactory/No Credit grading only.

Repeatability: May be repeated.

Credit Restriction: May not be used toward degree requirements.

Credit Level Restriction: Graduate credit only.

Registration Restriction(s): Minimum student level – graduate.

SEC. 003 CRN 36869 (Same as AE 504 001 CRN 36867 & ME 504 005 CRN 36872)

TEXT: None

TIME: Monday & Wednesday 11:55 – 1:10 E-113

PROF: Ragini Acharya

Provides a foundational knowledge of uncertainty and propagation, quantification methodologies. It consists of 2 modules: I: Probability Concepts, Basic Statistical Operations, and Set Operations and II: Probabilistic UQ Methods with introduction to non-Probabilistic Methods.

Cross-listed: (Same as Aerospace Engineering 504 and Mechanical Engineering 504.)

SEC. 001 CRN 24061 (Same as ME 529 001 CRN 21620)

TEXT: Advanced Linear Algebra for Engineers with MATLAB; Sohail A. Dianat and Eli S. Saber; CRC Press; Latest Edition; ISBN 978-1-4200-9523-4

TIME: Tuesday & Thursday 8:45 – 10:00 E-111

PROF: Monty Smith

Fundamental concepts of linear algebra to problems in engineering systems: steady state and dynamic systems. Geometric and physical interpretations of relevant concepts: least square problems, LU, QR, and SVD decompositions of system matrix, eigenvalue problems, and similarity transformations in solving difference and differential equations; numerical stability aspects of various algorithms; application of linear algebra concepts in control and optimization studies; introduction to linear programming. Computer projects.

Cross-listed: (Same as Biomedical Engineering 529; Civil Engineering 529, Electrical and Computer Engineering 529; Environmental Engineering 529; Industrial Engineering 529; Materials Science and Engineering 529; Mechanical Engineering 529; Nuclear Engineering 529).

Comment(s): Graduate standing or consent of instructor required.

SEC. 002 CRN 33260

TEXT: TBD

TIME: Tuesday & Thursday 1:30 – 2:45 Online

PROF: Sara Hanrahan

Develop an understanding of cell-cell interactions and the role of the extracellular matrix in the structure and function of normal and pathological tissues. Topics include the harvesting of stem cells from specific tissues, the use of artificial and natural scaffolds in three-dimensional tissue culture, and the role of maintaining the stem cell state in culture.

(DE) Prerequisite(s): 503, 511, 521.

SEC. 003 CRN 33788

TEXT: TBD

TIME: Tuesday & Thursday 10:20 – 11:35 Online

PROF: Sara Hanrahan

Study of the fundamental principles involved in materials / cell and tissue interactions. Students will learn the underlying cellular and molecular mechanisms in host response to biomaterials. Emphasis will be placed on the integration of biomaterials/neuronal cells and tissue interactions into the design of neural implants (sensors, scaffolds, and therapeutics delivery modalities, etc.). Additional research paper assignments will be given to graduate students registered for this course.

Recommended Background: BME 474.

Comment(s): Prior knowledge may satisfy prerequisites, with consent of instructor.

SEC. 005 CRN 25957 (Same as AE 599 005 CRN 25163 & ME 599 015 CRN 28672)

TEXT: None

TIME: Monday, Wednesday, & Friday 10:30 – 11:20 Online

PROF: Jackie Johnson

- Interaction of x-rays with matter.
- The production and physics of synchrotron and X-ray Free Electron Laser radiation.
- X-ray optics, beamlines, and instrumentation.
- X-ray diffraction and scattering.
- UV and x-ray spectroscopies.
- X -ray imaging (mainly tomography and lensless imaging/ptychography).
- Phasing techniques in macromolecular crystallography.
- General user proposal system.

Credit Restriction: Students cannot receive credit for more than 9 hours combined of Aerospace Engineering 599, Biomedical Engineering 599, and Mechanical Engineering 599.

Registration Permission: Consent of instructor.

SEC. 011 CRN 25805 Johnson

Grading Restriction: P/NP only.

Repeatability: May be repeated.

Registration Restriction(s): Minimum student level – graduate.

SEC. 002 CRN 28552

TEXT: TBD

TIME: TBD

PROF: Jeffrey Reinbolt

Intensive, individualized experience in reviewing literature, evaluating experimental or theoretical methods, planning a research project, and presenting research project plans orally and in writing.

Grading Restriction: Satisfactory/No Credit grading only.

Repeatability: Maximum 6 hours. May be repeated once.

Registration Restriction(s): Minimum student level – graduate. PhD students only.

Registration Permission: Consent of instructor.

SEC. 001 CRN 36834

TEXT: None

TIME: Monday, Wednesday, & Friday 2:00 – 2:50 Online

PROF: Jackie Johnson

Current artificial organs include Heart, Liver, Kidney, Lung, Pancreas, Skin, Bladder, Auditory brainstem, Bionic contact lens, Cochlear implant and Retinal implant. Course will cover a different organ each week with student led discussions after an introduction of required foundational information.

(DE) Prerequisite(s): Biomedical Engineering 486 and Biomedical Engineering 530.

Registration Permission: Consent of instructor can be given if the student does not have the suggested prerequisites.

## Mathematics

SEC. 002 CRN 37456

TEXT: TBD

TIME: Tuesday & Thursday 3:05 – 4:20 Online

PROF: Steven Wise

Analysis of advanced techniques in modern context for applied problems: dimensional analysis and scaling, perturbation theory, variational approaches, transform theory, wave phenomena and conservation laws, stability and bifurcation, distributions, integral equations.

Recommended Background: Courses in advanced calculus, linear algebra, and either advanced differential equations or 512.

## Mechanical Engineering

SEC.

001 CRN 21580 Acharya

021 CRN 21600 Gragston

022 CRN 21601 Johnson

023 CRN 21602 Kreth

024 CRN 21603 Moeller

025 CRN 21604 Palies

026 CRN 21605 Schmisseur

034 CRN 25526 Zhao

Grading Restriction: P/NP only.

Repeatability: May be repeated.

Credit Level Restriction: Graduate credit only.

Registration Restriction(s): Minimum student level – graduate.

SEC. 002 CRN 25081 Moeller

Required for the student not otherwise registered during any semester when student uses university facilities and/or faculty time before degree is completed.

Grading Restriction: Satisfactory/No Credit grading only.

Repeatability: May be repeated.

Credit Restriction: May not be used toward degree requirements.

Credit Level Restriction: Graduate credit only.

Registration Restriction(s): Minimum student level – graduate.

SEC. 005 CRN 36872 (Same as AE 504 001 CRN 36867 & BME 504 003 CRN 36869)

TEXT: None

TIME: Monday & Wednesday 11:55 – 1:10 E-113

PROF: Ragini Acharya

Provides a foundational knowledge of uncertainty and propagation, quantification methodologies. It consists of 2 modules: I: Probability Concepts, Basic Statistical Operations, and Set Operations and II: Probabilistic UQ Methods with introduction to non-Probabilistic Methods.

Cross-listed: (Same as Biomedical Engineering 504 and Aerospace Engineering 504.)

SEC. 003 CRN 36875

TEXT: TBD

TIME: Monday & Wednesday 1:30 – 2:45 E-113

PROF: Feng Zhang

Models and equations for fluid motion, the general energy equation, and transport properties. Exact, approximate, and boundary layer solutions for laminar flow heat transfer problems. Heat transfer in internal and external forced and buoyancy driven flows. Application of similarity concepts and analogies to convection heat transfer.

Recommended Background: Undergraduate heat transfer course.

SEC. 002 CRN 36965

TEXT: TBD

TIME: Monday & Wednesday 3:05 – 4:20 E-110

PROF: S. Shin

Fundamentals in thermal energy storage, transport, and conversion from atomic-scale perspectives. Physics of thermal energy carriers (phonon, electron, fluid particle, and photon). Introduction to atomic-scale simulations (molecular dynamics, density functional theory, etc.) for nanoscale heat transfer.

Recommended Background: Heat transfer, thermodynamics, nanomaterials and engineering.

Registration Restriction(s): Consent of instructor is required if from a different background than ME or Aerospace Engineering.

SEC. 001 CRN 34868 (Same as AE 516 001 CRN 34284)

TEXT: Random Data: Analysis and Measurement Procedures; Julius S. Bendat and Allan G. Piersol; Wiley; 4^{th} Ed.; ISBN 978-0-470-24877-5

TIME: Monday & Wednesday 8:45 – 10:00 E-111

PROF: Phil Kreth

Various tools and techniques used in the analysis of random data. Data classification; statistics and probability; spectral and correlation functions; data acquisition fundamentals; input-output system models; and an introduction to modern data analysis procedures.

Cross-listed: (Same as: Aerospace Engineering 516.)

(DE) Prerequisite(s): Undergrad degree in engineering. Consent of instructor.

Recommended Background: Logic-based programming knowledge (preferably within MATLAB) and some laboratory research.

SEC. 002 CRN 37097 (Same as AE 526 001 CRN 36832)

TEXT: Stabilization and Dynamic of Premixed Swirling Flames; Paul Palies; Elsevier Academic Press; 1^{st} Edition; ISBN 978-0-12-819996-1

TIME: Tuesday & Thursday 10:20 – 11:35 E-113

PROF: Paul Palies

Focuses on combustion dynamics and unsteady combustion process in gas turbine engines for commercial aviation. The goal is to describe the fundamentals of combustion processes at work in these propulsion systems including turbulent combustion and combustion instability. A major emphasis is on flame stabilization and combustion dynamics. Flame stabilization includes non-reacting flow processes and chemical reactions complexities associated to the flame front which are described. Combustion dynamics include phenomenon such as flashback, combustion oscillation, and blowoff. Elements of analytical, computational modeling and experimental measurements in the field are introduced and discussed. The operation and principles of gas turbines engines are also described. Finally, the perspective for research and development are outlined and include clean propulsion, sustainable aviation fuel, premixed combustion, and hydrogen combustion. Some of the materials presented in this course are also relevant to other combustion and propulsion systems (fighter aircraft and rocket engines) and will be discussed too.

Cross-listed: (Same as Aerospace Engineering 526.)

Recommended Background: Mechanical Engineering 525 – Combustion and Chemically Reacting Flows I.

SEC. 001 CRN 21620 (Same as BME 529 001 CRN 24061)

TEXT: Advanced Linear Algebra for Engineers with MATLAB; Sohail A. Dianat and Eli S. Saber; CRC Press; Latest Edition; ISBN 978-1-4200-9523-4

TIME: Tuesday & Thursday 8:45 – 10:00 E-111

PROF: Monty Smith

Fundamental concepts of linear algebra to problems in engineering systems: steady state and dynamic systems. Geometric and physical interpretations of relevant concepts: least square problems, LU, QR, and SVD decompositions of system matrix, eigenvalue problems, and similarity transformations in solving difference and differential equations; numerical stability aspects of various algorithms; application of linear algebra concepts in control and optimization studies; introduction to linear programming. Computer projects.

Cross-listed: (Same as Biomedical Engineering 529; Civil Engineering 529, Electrical and Computer Engineering 529; Environmental Engineering 529; Industrial Engineering 529; Materials Science and Engineering 529; Mechanical Engineering 529; Nuclear Engineering 529).

Comment(s): Graduate standing or consent of instructor required.

SEC. 001 CRN 28707

TEXT: TBD

TIME: Tuesday & Thursday 8:45 – 10:00 E-110

PROF: Kivanc Ekici

Review and implementation of basic numerical techniques. Explicit and implicit solution techniques of ordinary differential equations and partial differential equations. Applications include heat transfer and fluid mechanics.

Recommended Background: Numerical analysis, fluid mechanics, heat transfer and differential equations.

Registration Permission: Consent of Instructor.

SEC.

002 CRN 21626 Acharya

003 CRN 25514 Gragston

005 CRN 25515 Johnson

006 CRN 25516 Kreth

007 CRN 25517 Moeller

008 CRN 25518 Palies

009 CRN 25519 Schmisseur

010 CRN 25520 Zhao

Grading Restriction: Satisfactory/No Credit grading only.

Repeatability: May be repeated. Maximum 6 hours.

Comment(s): Enrollment limited to students in problems option.

Registration Permission: Consent of advisor.

SEC. 013 CRN 27651 (Same as AE 599 001 CRN 23969)

TEXT: Combustion; Irvin Glassman, R.A. Yetter, N.G. Glumac; Academic Press, 2014; 5^{th} Edition; ISBN: 978-0-12-407913-7

TIME: Tuesday & Thursday 10:20 – 11:35 Online

PROF: Peng Zhao

This course will focus on the chemical kinetics aspect of fuel science and emission control. This course will cover chemical thermodynamics, chemical kinetics, model reduction, ignition chemistry, flame chemistry, detonation, solid fuels, catalytic combustion, NOx and soot formation.

Credit Restriction: Students cannot receive credit for more than 9 hours combined of Aerospace Engineering 599, Biomedical Engineering 599, and Mechanical Engineering 599.

Registration Permission: Consent of instructor.

SEC. 015 CRN 28672 (Same as AE 599 005 CRN 25163 & BME 599 005 CRN 25957)

TEXT: None

TIME: Monday, Wednesday, & Friday 10:30 – 11:20 Online

PROF: Jackie Johnson

- Interaction of x-rays with matter.
- The production and physics of synchrotron and X-ray Free Electron Laser radiation.
- X-ray optics, beamlines, and instrumentation.
- X-ray diffraction and scattering.
- UV and x-ray spectroscopies.
- X -ray imaging (mainly tomography and lensless imaging/ptychography).
- Phasing techniques in macromolecular crystallography.
- General user proposal system.

Credit Restriction: Students cannot receive credit for more than 9 hours combined of Aerospace Engineering 599, Biomedical Engineering 599, and Mechanical Engineering 599.

Registration Permission: Consent of instructor.

SEC. 017 CRN 36878 (Same as AE 599 030 CRN 36880)

TEXT: TBD

TIME: Tuesday & Thursday 10:20 – 11:35 E-110

PROF: Damiano Baccarella

Credit Restriction: Students cannot receive credit for more than 9 hours combined of Aerospace Engineering 599, Biomedical Engineering 599, and Mechanical Engineering 599.

Registration Permission: Consent of instructor.

SEC. 030 CRN 33099 (Same as AE 599 003 CRN 26620)

TEXT: None

TIME: Monday & Wednesday 10:20 – 11:35 E-111

PROF: Milt Davis

Topics:

- Provide a Fundamental Understanding of Aerospace Ground Test Simulation and Facilities
- How Ground Testing Provides Accurate Engineering Information
- Application of GT Information to Aerospace System
- Applicable Analysis Techniques
- Suitable Measurement Systems

Credit Restriction: Students cannot receive credit for more than 9 hours combined of Aerospace Engineering 599, Biomedical Engineering 599, and Mechanical Engineering 599.

Registration Permission: Consent of instructor.

SEC.

015 CRN 21645 Acharya

016 CRN 21646 Gragston

018 CRN 21648 Johnson

019 CRN 21649 Kreth

027 CRN 21657 Moeller

028 CRN 21658 Palies

029 CRN 25522 Schmisseur

030 CRN 25523 Zhao

Grading Restriction: P/NP only.

Repeatability: May be repeated.

Registration Restriction(s): Minimum student level – graduate.

SEC. 002 CRN 28553

TEXT: TBD

TIME: TBD

PROF: Jeffrey Reinbolt

Methods of planning and conducting original research and proposal writing.

Grading Restriction: Satisfactory/No Credit grading only.

Repeatability: Maximum 6 hours. May be repeated once.

Registration Restriction(s): Minimum student level – doctoral student.

Registration Permission: Departmental approval.