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ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 499: | Special Topics | Course content to be selected each semester from current developments in astronautics, space technology, and related fields. | (2.0-4.0 units, max 8) | Not available | Not available | 32515R | 3:30-5:50pm | Thursday | Lecture | Garrett Reisman |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 527: | Space Exploration Architectures Concept Synthesis Studio | Programmatic/conceptual design synthesis/choice creation methods for complex space missions. Aerospace system engineering/architecting tools to create innovative projects. Evaluated by faculty/industry/NASA experts. Graduate standing in engineering or science. Recommended preparation: ASTE-520 or experience in space industry | (3.0 units) | Not available | Restriction: Registration open to the following class level(s): Master Student, Doctoral Student | 29134R | 6:40-9:20pm | Tuesday | Lecture | Madhu Thangavelu |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 535: | Space Environments and Spacecraft Interactions | Space environments and interactions with space systems. Vacuum, neutral and ionized species, plasma, radiation, micrometeoroids. Phenomena important for spacecraft operations. | (3.0 units) | Not available | Not available | 29135R | 6:40-9:20pm | Tuesday | Lecture | Joseph Wang |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 546: | Computational Plasma Dynamics | Plasma simulation techniques: particle-in-cell (PIC); PIC with Monte Carlo; computational electromagnetics; computational magnetohydrodynamics. Parallelization. Applications in engineering and space plasma physics. Prerequisite: ASTE 505a. | (3.0 units) | Prerequisite: 1 from (ASTE 505a or EE 572a) | Not available | 32519R | 1:00-3:50pm | Wednesday | Lecture | Lubos Brieda |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 562: | Spacecraft Life Support Systems | Engineering fundamentals of spacecraft systems design and analysis to support human life in the space environment. | (3.0 units) | Prerequisite: ASTE 524 | Not available | 28494D | 12:00-2:50pm | Friday | Lecture | Garrett Reisman |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 566: | Ground Communications for Satellite Operations | Theory, practice, architecture, operations of ground satellite communications with satellites. Practical implementation of satellite communications system and reception and analysis of satellite transmitted signals. | (3.0 units) | Prerequisite: ASTE 520 | Restriction: Registration open to the following school(s): Andrew and Erna Viterbi School of Engineering | 32511D | 12:00-1:20pm | Tue, Thu | Lecture | David Barnhart |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 570: | Liquid Rocket Propulsion | Liquid-propelled rocket propulsion systems. Capillary devices for gas-free liquid acquisition in zero gravity. Ground and in-orbit operations. Propellant life predictions and spacecraft end-of-life de-orbiting strategies. | (3.0 units) | Prerequisite: ASTE 470 | Not available | 29142R | 6:40-9:20pm | Thursday | Lecture | Ghanshyam Purohit |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 572: | Advanced Spacecraft Propulsion | Nuclear, electric, sails, and far-term propulsion systems. Overviews of nozzles, heat transfer, electromagnetics, rarefied gases, and plasma physics. Analysis of electrothermal, electrostatic and electromagnetic thrusters. Graduate standing in engineering or science. | (3.0 units) | Prerequisite: ASTE 470 | Not available | 29174D | 6:40-9:20pm | Tuesday | Lecture | Keith Goodfellow |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 574: | Space Launch Vehicle Design | Fundamentals, technologies, and design of space launch vehicles. Propulsion, trajectory analysis and optimization, static and dynamic structural loads, stability, control, and safety. | (3.0 units) | Not available | Not available | 29184R | 10:00-1:10pm | Tuesday | Lecture | Don Edberg |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 575: | Rocket and Spacecraft Propulsion | Space missions, rocket dynamics, and propulsion requirements. Thermodynamics and combustion; compressible gas dynamics in nozzles. Liquid- and solid-propellant rockets; launch systems. Advanced propulsion. | (3.0 units) | Not available | Restriction: Registration open to the following class level(s): Doctoral Student, Master Student | 32516R | 6:40-9:20pm | Monday | Lecture | Daniel Depew |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 580: | Orbital Mechanics I | Physical principles; two-body and central force motion; trajectory correction maneuvers; position and velocity in conic orbits; Lambert's problem; celestial mechanics; orbital perturbations. | (3.0 units) | Not available | Not available | 29145R | 6:40-9:20pm | Wednesday | Lecture | Gerald Hintz |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 581: | Orbital Mechanics II | Theory of perturbations of orbits; numerical methods in orbital mechanics; satellite dynamics; averaging methods; resonance; mission analysis. | (3.0 units) | Prerequisite: ASTE 580 | Not available | 29146R | 6:40-9:20pm | Wednesday | Lecture | Ryan Park |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 584: | Spacecraft Power Systems | Introduction to solar arrays, batteries, nuclear power sources, mechanical energy storage. Application, theory of operation, practical considerations. Subsystem topologies and performance. Design optimization techniques. Graduate standing in engineering or science. | (3.0 units) | Not available | Restriction: Registration open to the following class level(s): Master Student, Doctoral Student | 29148D | 6:40-9:20pm | Wednesday | Lecture | Steve Lapen,David Lee |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 590: | Directed Research | Research leading to the master's degree. Maximum units which may be applied to the degree to be determined by the division. Graded CR/NC. | (1.0-12.0 units) | Not available | Not available | 29180D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 594a: | Master's Thesis | Credit on acceptance of thesis. Graded IP/CR/NC. | (2.0 units) | Not available | Not available | 29181D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 594b: | Master's Thesis | Credit on acceptance of thesis. Graded IP/CR/NC. | (2.0 units) | Prerequisite: ASTE 594A | Not available | 29182D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 594z: | Master's Thesis | Credit on acceptance of thesis. Graded IP/CR/NC. | (0.0 units) | Prerequisite: ASTE 594b | Not available | 29183D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 599: | Special Topics | Course content to be selected each semester from current developments in astronautics, space technology, and related fields. | (2.0-4.0 units, max 9) | Not available | Not available | 28492D | 6:40-9:20pm | Tuesday | Lecture | Michael Kezirian,Jerold Haber |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 690: | Directed Research | Laboratory studies of specific problems by candidates for the degree Engineer in Astronautical Engineering. Graded CR/NC. | (1.0-4.0 units, max 8) | Not available | Not available | 29190D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 694a: | Thesis | Required for the degree Engineer in Astronautical Engineering. Credit on acceptance of thesis. Graded IP/CR/NC. | (2.0 units) | Not available | Not available | 29191D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 694b: | Thesis | Required for the degree Engineer in Astronautical Engineering. Credit on acceptance of thesis. Graded IP/CR/NC. | (2.0 units) | Prerequisite: ASTE 694A | Not available | 29192D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 694z: | Thesis | Required for the degree Engineer in Astronautical Engineering. Credit on acceptance of thesis. Graded IP/CR/NC. | (0.0 units) | Prerequisite: ASTE 694B | Not available | 29193D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 790: | Research | Research leading to the doctorate. Maximum units which may be applied to the degree to be determined by the division. Graded CR/NC. | (1.0-12.0 units) | Not available | Not available | 29194D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 794a: | Doctoral Dissertation | Credit on acceptance of dissertation. Graded IP/CR/NC. | (2.0 units) | Not available | Not available | 29195D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 794b: | Doctoral Dissertation | Credit on acceptance of dissertation. Graded IP/CR/NC. | (2.0 units) | Prerequisite: ASTE 794A | Not available | 29196D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 794c: | Doctoral Dissertation | Credit on acceptance of dissertation. Graded IP/CR/NC. | (2.0 units) | Not available | Not available | 29197D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 794d: | Doctoral Dissertation | Credit on acceptance of dissertation. Graded IP/CR/NC. | (2.0 units) | Prerequisite: ASTE 794C | Not available | 29198D | TBA | TBA | Lecture | null |
ASTE | https://classes.usc.edu/term-20241/classes/ASTE/ | ASTE 794z: | Doctoral Dissertation | Credit on acceptance of dissertation. Graded IP/CR/NC. | (0.0 units) | Not available | Not available | 29199D | TBA | TBA | Lecture | null |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 101: | Introduction to Biomedical Engineering | Historical development and survey of major areas comprising biomedical engineering: theoretical neurobiology and systems physiology, biomedical instrumentation, artificial organ and prosthetic devices, biomedical computer applications. | (4.0 units) | Not available | Not available | 29205D | 8:00-9:20am | Tue, Thu | Lecture | Bartlett Mel,Joseph Liu |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 201: | Biomedical Engineering Practice | Examination of the technical and practical challenges involved in the development of medical devices, including neural implants, in industry and the clinical setting. Recommended preparation: BME 101. | (2.0 units) | Not available | Not available | 29202D | 12:00-1:50pm | Wednesday | Lecture | Stan Yamashiro |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 210: | Biomedical Computer Simulation Methods | Computational methods for simulation of circulatory, respiratory, pharmacokinetic, and neural models. Quadrature, differential equations, systems of linear equations, simulation languages, experimental statistics. | (4.0 units) | Not available | Not available | 29200D | 2:00-3:50pm | Mon, Wed | Lecture | David D'Argenio |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 308: | Computer-Aided Design for Bio-Mechanical Systems | Concepts of computer-aided design in 2-dimensions and 3-dimensions. Creating advanced parts using extrusions, surfaces, and equation driven sketches. Forming assemblies, and sub-assemblies, for motion analysis | (3.0 units) | Not available | Not available | 31843R | 9:30-10:50am | Mon, Wed | Lecture-Lab | Raymond Kim |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 403L: | Physiological Systems | A thorough bioengineering treatment of the physiological properties of various mammalian organ systems: e.g., cardiovascular, respiratory, renal, and musculoskeletal. | (4.0 units) | Prerequisite: BISC 220 and MATH 245 | Not available | 29228D | 8:00-9:20am | Mon, Wed | Lecture | Stan Yamashiro |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 405L: | Senior Projects: Measurements and Instrumentation | Application of instrumentation and measurement techniques to biomedical engineering projects involving measurement, replacement or augmentation of biomedical systems. | (4.0 units) | Prerequisite: BME 210 | Not available | 29231D | 11:00-12:20pm | Mon, Wed | Lecture | Jerry Loeb |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 406: | Introduction to Bioengineering in Medicine | Bioengineering concepts and technologies applied to cancer diagnosis, drug discovery, immunotherapeutic development, stem cell techniques and therapies, mechanistic research. | (4.0 units) | Not available | Not available | 29232D | 2:00-3:50pm | Tue, Thu | Lecture | Keyue Shen |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 410L: | Introduction to Biomaterials and Tissue Engineering | Study of stem cells, biomaterials, and microfabrication techniques used to engineer human tissues. Labs for muscle tissue engineering, microscopy, and fabrication of cell culture substrates. | (4.0 units) | Prerequisite: CHEM 322A and BISC 220 | Not available | 29245D | 9:30-10:50am | Tue, Thu | Lecture | Megan McCain |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 412: | Fundamentals of Craniofacial and Dental Technology | Biomedical engineering and technology applied to oral health professions. Dental biomaterials, CAD-CAM, digital dental technology and tissue engineering applications to craniofacial diseases, disorders, and enhancements. Recommended preparation: junior standing. | (3.0 units) | Not available | Not available | 22932R | 2:00-4:50pm | Tuesday | Lecture | Reyes Enciso |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 415: | Regulation of Medical Products | An introduction to the process of medical product development with emphasis on the regulations that govern the design, fabrication and maintenance of medical products. | (2.0 units) | Not available | Restriction: Registration open to the following class level(s): Junior, Senior | 29252D | 2:00-4:50pm | Friday | Lecture | Jerry Loeb |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 427: | Basics of Biomedical Imaging: Non-Ionizing Radiation | Non-ionizing radiation imaging techniques; MRI, ultrasound and emerging optical imaging techniques including fluorescence, Raman and photoacoustic imaging; engineering and modern physics concepts; clinical applications. | (2.0 units) | Prerequisite: PHYS 152 | Not available | 29262R | 10:00-11:50am | Tue, Thu | Lecture | Cristina Zavaleta |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 444: | Introduction to Biosensors and Diagnostics Devices | Introduction to biosensor technology, including classification and bio-recognition elements, and the integration of engineering and biology for the design of point-of-care biosensors. | (4.0 units) | Not available | Not available | 29273D | 2:00-3:50pm | Tue, Thu | Lecture-Lab | Maral Mousavi |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 466L: | Capstone Project Laboratory | Continued development of the Senior Design project; identify possible improvements and establish new requirements; design, build and demonstrate an improved prototype. | (2.0 units) | Prerequisite: BME 405 | Not available | 29272D | 4:00-6:50pm | Thursday | Lecture-Lab | Jean-Michel Maarek |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 490x: | Directed Research | Individual research and readings. Not available for graduate credit. | (1.0-8.0 units, max 12) | Not available | Restriction: Registration open to the following class level(s): Junior, Senior | 29260D | TBA | TBA | Lecture | Megan McCain |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 499: | Special Topics 10 | Current trends and developments in the field of biomedical engineering. | (1.0-7.0 units, max 8) | Not available | Not available | 29261R | 4:00-5:50pm | Tuesday | Lecture | Jennifer Treweek |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 501: | Advanced Topics in Biomedical Systems | Advanced topics in selected biomedical systems: cardiopulmonary, neuromuscular, renal and endocrine. Duplicates credit in BME 503ab. | (4.0 units) | Not available | Not available | 29270D | 10:00-11:50am | Mon, Wed | Lecture | Stan Yamashiro |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 505bL: | Laboratory Projects in Biomedical Engineering | Integration of biomedical science, engineering principles and state-of-the-art technology for the study of selected physiological systems in the laboratory setting. Laboratory. | (4.0 units) | Prerequisite: BME 505a | Not available | 29275D | 11:00-1:00pm | Friday | Lecture-Lab | Brent Liu |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 513: | Signal and Systems Analysis | Classification; representation; statistical analysis; orthogonal expansions; least-squares estimation; harmonic analysis; Fourier, Laplace and Z transforms; the linear system; filtering; modeling and simulation; linear control theory. | (4.0 units) | Not available | Not available | 29286D | 2:00-3:50pm | Mon, Wed | Lecture | Vasilis Marmarelis |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 514: | Physiological Signals and Data Analytics | Application of linear time- and frequency-domain techniques, adaptive filtering, nonlinear dynamics and machine learning approaches to the analysis of physiological signals. | (4.0 units) | Prerequisite: BME 513 | Not available | 29297D | 2:00-3:50pm | Mon, Wed | Lecture | Michael Khoo |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 515: | Data Analytics in Biomedical Engineering | Presentation and application of advanced computational/mathematical methodologies for analysis of biomedical time-series data, emphasizing predictive analytics to advance biomedical science and improve clinical support systems. | (4.0 units) | Prerequisite: BME 513 | Not available | 29298D | 12:00-1:50pm | Mon, Wed | Lecture | Shaoying Lu |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 525: | Advanced Biomedical Imaging | Advanced scientific and engineering principles of biomedical imaging including magnetic resonance, X-ray computed tomography, ultrasound and single photon and positron emission tomography. | (4.0 units) | Not available | Not available | 29295D | 12:00-1:50pm | Tue, Thu | Lecture | Brent Liu |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 528: | Medical Diagnostics, Therapeutics and Informatics Applications | Picture archive communication system (PACS) design and implementation; clinical PACS-based imaging informatics; telemedicine/teleradiology; image content indexing, image data mining; grid computing in large-scale imaging informatics; image-assisted diagnosis, surgery and therapy. | (4.0 units) | Not available | Not available | 29305D | 10:00-11:50am | Tue, Thu | Lecture | Brent Liu |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 530: | Introduction to Systems Biology | Computational methods for simulation and analysis of metabolic networks, cellular signaling pathways, and gene regulatory networks. Biochemical kinetics, differential equations, stability analysis, sensitivity analysis. | (4.0 units) | Not available | Not available | 29246D | 12:00-1:40pm | Tue, Thu | Lecture | Stacey Finley |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 533: | Seminar in Bioengineering | Graded CR/NC. | (1.0 units, max 3) | Not available | Not available | 29248D | 11:00-11:50am | Friday | Lecture | Maral Mousavi |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 551: | Introduction to Bio-MEMS and Nanotechnology | Principles and biomedical applications of micro-electromechanical systems (MEMS) and nanotechnology, including microfluidics, nanowire sensors, nanomotors, quantum dots, biofuel cells and molecular imaging. | (4.0 units) | Not available | Not available | 29339D | 4:00-5:50pm | Mon, Wed | Lecture | null |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 552: | Neural Implant Engineering | Advanced studies of the basic neuroscience, engineering design requirements and technological issues associated with implantable neural prostheses, with paticular emphasis on retinal and cortical function. | (3.0 units) | Not available | Not available | 29340D | 2:00-4:50pm | Thursday | Lecture | Ted Berger,Jeanmarie Bouteiller |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 559: | Nanomedicine and Drug Delivery | Drug delivery and use of nanoengineered materials, including cutting-edge nanoparticle-based therapy, imaging and tissue engineering. Nanotoxicology and the regulatory landscape is introduced. | (4.0 units) | Not available | Not available | 29256D | 12:00-1:50pm | Tue, Thu | Lecture | Eun Ji Chung |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 590: | Directed Research | Research leading to the master's degree. Maximum units which may be applied to the degree to be determined by the department. Graded CR/NC. | (1.0-12.0 units) | Not available | Not available | 29355D | TBA | TBA | Lecture | Megan McCain |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 594a: | Master's Thesis | Credit on acceptance of thesis. Graded IP/CR/NC | (2.0 units) | Not available | Not available | 29360D | TBA | TBA | Lecture | null |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 594b: | Master's Thesis | Credit on acceptance of thesis. Graded IP/CR/NC | (2.0 units) | Prerequisite: BME 594a | Not available | 29365D | TBA | TBA | Lecture | null |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 594z: | Master's Thesis | Credit on acceptance of thesis. Graded IP/CR/NC | (0.0 units) | Prerequisite: BME 594b | Not available | 29370D | TBA | TBA | Lecture | null |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 790: | Research | Research applicable to the doctorate. Graded CR/NC. | (1.0-12.0 units) | Not available | Not available | 29385D | TBA | TBA | Lecture | Megan McCain |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 794a: | Doctoral Dissertation | Credit on acceptance of dissertation. Graded IP/CR/NC. | (2.0 units) | Not available | Restriction: Registration open to the following class level(s): Doctoral Student | 29390D | TBA | TBA | Lecture | null |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 794b: | Doctoral Dissertation | Credit on acceptance of dissertation. Graded IP/CR/NC. | (2.0 units) | Prerequisite: BME 794a | Restriction: Registration open to the following class level(s): Doctoral Student | 29392D | TBA | TBA | Lecture | null |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 794c: | Doctoral Dissertation | Credit on acceptance of dissertation. Graded IP/CR/NC. | (2.0 units) | Prerequisite: BME 794b | Restriction: Registration open to the following class level(s): Doctoral Student | 29394D | TBA | TBA | Lecture | null |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 794d: | Doctoral Dissertation | Credit on acceptance of dissertation. Graded IP/CR/NC. | (2.0 units) | Prerequisite: BME 794c | Restriction: Registration open to the following class level(s): Doctoral Student | 29396D | TBA | TBA | Lecture | null |
BME | https://classes.usc.edu/term-20241/classes/BME/ | BME 794z: | Doctoral Dissertation | Credit on acceptance of Dissertation. Graded IP/CR/NC. | (0.0 units) | Prerequisite: BME 794d | Restriction: Registration open to the following class level(s): Doctoral Student | 29399D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 120: | Introduction to Chemical Engineering | Problem-solving techniques in chemical engineering, including an introduction to engineering problem analysis, mass balances, and energy balances. | (4.0 units) | Not available | Not available | 29400D | 10:00-11:50am | Tue, Thu | Lecture | Jincai Chang |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 350: | Introduction to Separation Processes | Introduction to the design of chemical separation processes based on the principles of phase equilibrium, material balance and energy balance. | (4.0 units) | Prerequisite: 1 from (CHEM 105B or CHEM 115B) | Not available | 29408D | 12:00-1:50pm | Mon, Wed | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 410L: | Introduction to Biomaterials and Tissue Engineering | Study of stem cells, biomaterials, and microfabrication techniques used to engineer human tissues. Labs for muscle tissue engineering, microscopy, and fabrication of cell culture substrates. | (4.0 units) | Prerequisite: CHEM 322A and BISC 220 | Not available | 29245D | 9:30-10:50am | Tue, Thu | Lecture | Megan McCain |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 442: | Chemical Reactor Design | Problem-solving techniques in Chemical Reactor Design, including the description of chemical kinetics and rates, and analysis of mass balances, and energy balances. | (4.0 units) | Prerequisite: MATH 245 and CHE 443 | Not available | 29414D | 10:00-11:50am | Mon, Wed | Lecture | Shaama Mallikarjun Sharada |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 444aL: | Chemical Engineering Laboratory | Conduct experiments and analyze data to generate results used to solve chemical engineering problems. Communicate results, data, and solutions in written reports and oral presentations. | (2.0 units) | Prerequisite: CHE 120 | Not available | 29418D | 8:30-9:50am | Friday | Lecture | Jincai Chang |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 444cL: | Chemical Engineering Laboratory | Conduct experiments and analyze data to generate results used to solve chemical engineering problems. Communicate results, data, and solutions in written reports and oral presentations. | (2.0 units) | Prerequisite: CHE 330 and CHE 444B | Not available | 29424D | 8:30-9:50am | Wednesday | Lecture | Jincai Chang |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 447: | Heat and Mass Transfer in Chemical Engineering Processes | Differential and macroscopic equations of heat transfer; molecular and continuum approaches to diffusion and convection in fluids; simultaneous heat, mass and momentum transfer. | (4.0 units) | Prerequisite: MATH 245 and CHE 443 | Not available | 29432D | 2:00-3:50pm | Mon, Wed | Lecture | Wade Zeno |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 464L: | Modeling and Simulation of Subsurface Flow Systems | Properties of reservoir fluids, volumetric and material balances for gas and oil reservoirs; reservoir modeling concepts. | (4.0 units) | Prerequisite: PTE 463 | Not available | 32204D | 10:00-12:40pm | Friday | Lecture | Behnam Jafarpour |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 475: | Physical Properties of Polymers | Introduction to polymer physical properties and characterization, relationship to synthesis techniques and processing techniques, natural and synthetic materials, property optimization and modern applications. | (4.0 units) | Not available | Not available | 29436D | 4:00-5:50pm | Mon, Wed | Lecture | Noah Malmstadt |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 480: | Chemical Process and Plant Design | Design and evaluate a chemical process/plant based on safety, economics, sustainability and engineering viability through the application of unit operations, thermodynamics, kinetics and separations. | (4.0 units) | Prerequisite: CHE 485 | Restriction: Registration open to the following class level(s): Senior | 29440D | 12:00-1:50pm | Mon, Wed | Lecture | Nicholas Graham,Pin Wang |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 490x: | Directed Research | Individual research and readings. Not available for graduate credit. | (1.0-8.0 units, max 12) | Not available | Restriction: Registration open to the following class level(s): Junior, Senior | 29444D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 491: | Nanotechnology Research for Undergraduates | Independent research in nanotechnology. Research project selected by the student in close consultation with a research advisor. Prerequisite: CHE 391L. Open only to juniors and seniors. | (2.0 units, max 4) | Prerequisite: CHE 391 | Restriction: Registration open to the following class level(s): Junior, Senior | 29446D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 499: | Special Topics | Course content to be selected each semester from recent developments in chemical engineering and related fields. | (2.0-4.0 units, max 8) | Not available | Not available | 29447D | 10:00-1:50pm | Friday | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 520: | Mathematical Methods for Deep Learning | Understanding deep learning: for students in engineering, physical and life sciences and computer science with mathematical background. | (4.0 units) | Not available | Not available | 32113R | 4:00-5:50pm | Mon, Wed | Lecture | Zhenglu Li |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 530: | Thermodynamics for Chemical Engineers | Elements of classical and statistical thermodynamics. Molecular theory and property estimation, emphasis on multi-component multi-phase fluid systems. Advanced applications, including highly non-ideal solutions, polymers, electrolytes. | (4.0 units) | Not available | Not available | 29460D | 2:00-3:50pm | Mon, Wed | Lecture | Kristian Jessen |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 550: | Seminars in Chemical Engineering | Seminars to cover recent developments in the field of chemical engineering given by invited speakers. | (0.0-1.0 units, max 2) | Not available | Not available | 29473D | 4:00-5:20pm | Tuesday | Lecture | Malancha Gupta |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 586: | Process Data Analytics and Machine Learning | Topics include multi-linear regression, supervised learning, unsupervised learning, principal component analysis, partial least squares, canonical correlation analysis, clustering methods, lasso, neural networks, and deep learning. Applications include analysis of chemical process data, quality data, and indirectly measured data. | (3.0 units) | Not available | Restriction: Registration open to the following class level(s): Doctoral Student, Master Student | 29545D | 12:00-1:20pm | Mon, Wed | Lecture | Jay Lee |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 590: | Directed Research | Research leading to the Master's degree. Maximum units which may be applied to the degree to be determined by the department. Graded CR/NC. | (1.0-12.0 units) | Not available | Not available | 29476D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 594a: | Master's Thesis | Credit on acceptance of Thesis. Graded CR/NC. | (2.0 units) | Not available | Restriction: Registration open to the following class level(s): Master Student | 29477D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 594b: | Master's Thesis | Credit on accceptance of Thesis. Graded CR/NC. | (2.0 units) | Prerequisite: CHE 594A | Restriction: Registration open to the following class level(s): Master Student | 29478D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 594z: | Master's Thesis | Credit on acceptance of Thesis. Graded CR/NC. | (0.0 units) | Prerequisite: CHE 594B | Restriction: Registration open to the following class level(s): Master Student | 29479D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 790: | Research | Research leading to the doctorate. Maximum units which may be applied to the degree to be determined by the department. Graded CR/NC. | (1.0-12.0 units) | Not available | Not available | 29483D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 794a: | Doctoral Dissertation | Credit on acceptance of Dissertation. Graded CR/NC. | (2.0 units) | Not available | Restriction: Registration open to the following class level(s): Doctoral Student | 29484D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 794b: | Doctoral Dissertation | Credit on acceptance of Dissertation. Graded CR/NC. | (2.0 units) | Prerequisite: CHE 794A | Restriction: Registration open to the following class level(s): Doctoral Student | 29485D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 794c: | Doctoral Dissertation | Credit on acceptance of Dissertation. Graded CR/NC. | (2.0 units) | Prerequisite: CHE 794B | Restriction: Registration open to the following class level(s): Doctoral Student | 29486D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 794d: | Doctoral Dissertation | Credit on acceptance of Dissertation. Graded CR/NC. | (2.0 units) | Prerequisite: CHE 794C | Restriction: Registration open to the following class level(s): Doctoral Student | 29487D | TBA | TBA | Lecture | null |
CHE | https://classes.usc.edu/term-20241/classes/CHE/ | CHE 794z: | Doctoral Dissertation | Credit on acceptance of Dissertation. Graded CR/NC. | (0.0 units) | Prerequisite: CHE 794D | Restriction: Registration open to the following class level(s): Doctoral Student | 29488D | TBA | TBA | Lecture | null |
CE | https://classes.usc.edu/term-20241/classes/CE/ | CE 107L: | Introduction to Civil Engineering Graphics | Graphic communication and drawing; Free-hand sketching; Use of CAD software; Drawing in 2-D, including lettering, dimensioning, and detailing; Drawing and modeling in 3-D. | (2.0 units) | Not available | Not available | 29600R | 2:00-3:50pm | Monday | Lecture | Meida Chen |
CE | https://classes.usc.edu/term-20241/classes/CE/ | CE 108: | Introduction to Computer Methods in Civil Engineering | Computer programming, organization of problems for computational solution, flow charts, programming; numerical methods, analysis and solution of civil engineering problems. | (2.0 units) | Not available | Not available | 29608R | 9:00-9:50am | Tue, Thu | Lecture | Roger Ghanem |
CE | https://classes.usc.edu/term-20241/classes/CE/ | CE 225: | Mechanics of Deformable Bodies | Analysis of stress and strain; axial, flexural, and torsional behavior of slender bars; elastic deflections; combined stresses; introduction to elastic stability and energy methods. | (4.0 units) | Prerequisite: CE 215 | Not available | 29619R | 10:00-11:50am | Mon, Wed | Lecture | Qiming Wang |
CE | https://classes.usc.edu/term-20241/classes/CE/ | CE 309: | Fluid Mechanics | Fluid statics; relative velocity field; total acceleration; divergence theorem; conservation of mass, energy, and momentum applied to engineering problems in laminar and turbulent flow. | (4.0 units) | Prerequisite: 1 from (MATH 226 or MATH 229) | Not available | 29620R | 12:00-1:50pm | Mon, Wed | Lecture | Thomas Petersen |
CE | https://classes.usc.edu/term-20241/classes/CE/ | CE 363L: | Water Chemistry and Analysis | Chemistry of water purification technology and water pollution control, chemical processes in natural and engineering environments; physical/chemical and biological characterization of water and wastewater. | (4.0 units) | Prerequisite: ENE 200 and 1 from (CHEM 105B or CHEM 115B) | Not available | 29625R | 4:00-5:50pm | Tuesday | Lecture | null |
CE | https://classes.usc.edu/term-20241/classes/CE/ | CE 402: | Computer Methods in Engineering | Application of computer-oriented numerical analysis methods and tools to a broad spectrum of practical science and engineering problems. Use of Python, R and computer algebra. | (2.0 units) | Prerequisite: CE 108 and MATH 245 | Not available | 29638R | 11:00-12:50pm | Tuesday | Lecture | Thomas Petersen |
CE | https://classes.usc.edu/term-20241/classes/CE/ | CE 412: | Construction Contracts and Law | Legal aspects of property development and construction: land use, construction practices and specifications, architecture and engineering contracts, agency, subcontracting, professional registration, liability, insurance, liens, bonds. | (2.0 units) | Not available | Not available | 29635D | 6:00-7:50pm | Tuesday | Lecture | Alan Croll |
CE | https://classes.usc.edu/term-20241/classes/CE/ | CE 430: | Sustainable Transportation | Sustainability practices in building and maintaining transportation infrastructure; interrelations between innovation, policies and regulations for improving mobility services while reducing the environmental impact. | (2.0 units) | Not available | Not available | 29640R | 10:00-11:50am | Friday | Lecture | Eric Shen |
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