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Chemical and Biological Engineering (CBE)

101. Introduction to Chemical Engineering and Biological Engineering. (1)


213. Laboratory Electronics for Nuclear, Chemical and Biological Engineers. (3)


251. Chemical Process Calculations. (3)


253. Chemical and Biological Engineering Computing. (3)


302. Chemical Engineering Thermodynamics. (3)


311. Introduction to Transport Phenomena. (3)


312. Unit Operations. (3)


317. Numerical Methods for Chemical and Biological Engineering. (3)


318L. Chemical Engineering Laboratory I : Introduction to Experimentation. (3)


319L. Chemical Engineering Laboratory II. (1)


321. Mass Transfer. (3)


371. Introduction to Materials Engineering. (3)


403 / 503. Heterogeneous Catalysis Seminar. (2 to a maximum of 20 Δ)


404 / 504. Nanomaterials Seminar. (2 to a maximum of 20 Δ)


406 / 506. Bioengineering Seminar. (2 to a maximum of 20 Δ)


412 / 512. Characterization Methods for Nanostructures. (3)


417 / 517. Applied Biology for Biomedical Engineers. (3)


418L. Chemical Engineering Laboratory III. (1)


419L. Chemical Engineering Laboratory IV. (1)


447 / 547. Biomedical Engineering Research Practices. (3)


451. Senior Seminar. (1)


454. Process Dynamics and Control. (3)


**461. Chemical Reactor Engineering. (3)


472 / 572. Biomaterials Engineering. (3)


477 / 577. Electrochemical Engineering. (3)


479 / 579. Tissue Engineering. (3)


486 / 586. Introduction to Statistics and Design of Experiments. (3)


491. Undergraduate Research. (1-3, no limit Δ)


493L. Chemical Engineering Design. (3)


494L. Advanced Chemical Engineering Design. (3)


495–496. Chemical and Biological Engineering Honors Problems I and II. (1-6 to a maximum of 6 Δ; 1-6 to a maximum of 6 Δ)


499. Selected Topics. (1-3, no limit Δ)


501. Chemical and Biological Engineering Seminar. (1, no limit Δ)


502. Chemical and Biological Engineering Research Practices. (3, no limit Δ)


503 / 403. Heterogeneous Catalysis Seminar. (2 to a maximum of 20 Δ)


504 / 404. Nanomaterials Seminar. (2 to a maximum of 20 Δ)


506 / 406. Bioengineering Seminar. (2 to a maximum of 20 Δ)


512 / 412. Characterization Methods for Nanostructures. (3)


515. Special Topics. (1-3, no limit Δ)


517 / 417. Applied Biology for Biomedical Engineers. (3)


521. Advanced Transport Phenomena I. (3)


525. Methods of Analysis in Nuclear, Chemical and Biological Engineering. (3)


530. Surface and Interfacial Phenomena. (3)


542. Advanced Chemical Engineering Thermodynamics. (3)


547 / 447. Biomedical Engineering Research Practices. (3)


551–552. Problems. (1-3, no limit Δ; 1-3)


561. Kinetics of Chemical Processes. (3)


572 / 472. Biomaterials Engineering. (3)


575. Selected Topics in Material Science. (1-3, no limit Δ)


576. Selected Topics in Aerosol Science. (3 to a maximum of 6 Δ)


577 / 477. Electrochemical Engineering. (3)


579 / 479. Tissue Engineering. (3)


586 / 486. Introduction to Statistics and Design of Experiments. (3)


599. Master's Thesis. (1-6, no limit Δ)


699. Dissertation. (3-12, no limit Δ)


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1 University of New Mexico
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