[PORTALNAME]
Toggle menu
Home
Search
Search
Search Transfer Schools
Search for Course Equivalencies
Search for Exam Equivalencies
Search for Transfer Articulation Agreements
Search for Programs
Search for Courses
PA Bureau of CTE SOAR Programs
Transfer Student Center
Transfer Student Center
Adult Learners
Community College Students
High School Students
Traditional University Students
International Students
Military Learners and Veterans
About
About
Institutional information
Transfer FAQ
Register
Login
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
Chemical Engineering 108A: Process Economics and Analysis
4.00 Credits
University of California-Los Angeles
Lecture, four hours; discussion, one hour; outside study, seven hours. Requisites: courses 103 or C125, 104B, 106 or C115. Integration of chemical engineering fundamentals such as transport phenomena, thermodynamics, separation operations, and reaction engineering and simple economic principles for purpose of designing chemical processes and evaluating alternatives. Letter grading.
Share
Chemical Engineering 108A - Process Economics and Analysis
Favorite
Chemical Engineering 108B: Chemical Process Computer-Aided Design and Analysis
4.00 Credits
University of California-Los Angeles
Lecture, four hours; discussion, one hour; outside study, seven hours. Requisites: courses 103 or C125, 106 or C115, 108A, and either Civil Engineering 15 or Mechanical and Aerospace Engineering 20. Introduction to application of some mathematical and computing methods to chemical engineering design problems; use of simulation programs as automated method of performing steady state material and energy balance calculations. Letter grading.
Share
Chemical Engineering 108B - Chemical Process Computer-Aided Design and Analysis
Favorite
Chemical Engineering 109: Numerical and Mathematical Methods in Chemical and Biological Engineering
4.00 Credits
University of California-Los Angeles
Lecture, four hours; discussion, one hour; outside study, seven hours. Preparation: basic knowledge of MATLAB programming. Numerical methods for computation of solution of systems or linear and nonlinear algebraic equations, ordinary differential equations, and partial equations. Chemical and biomolecular engineering examples used throughout to illustrate application of these methods. Use of MATLAB as platform (programming environment) to write programs based on numerical methods to solve various problems arising in chemical engineering. Letter grading.
Share
Chemical Engineering 109 - Numerical and Mathematical Methods in Chemical and Biological Engineering
Favorite
Chemical Engineering 110: Intermediate Engineering Thermodynamics
4.00 Credits
University of California-Los Angeles
Lecture, four hours; outside study, eight hours. Requisite: course 102B. Principles and engineering applications of statistical and phenomenological thermodynamics. Determination of partition function in terms of simple molecular models and spectroscopic data; nonideal gases; phase transitions and adsorption; nonequilibrium thermodynamics and coupled transport processes. Letter grading.
Share
Chemical Engineering 110 - Intermediate Engineering Thermodynamics
Favorite
Chemical Engineering 113: Air Pollution Engineering
4.00 Credits
University of California-Los Angeles
Lecture, four hours; preparation, two hours; outside study, six hours. Requisites: courses 101C, 102B. Integrated approach to air pollution, including concentrations of atmospheric pollutants, air pollution standards, air pollution sources and control technology, and relationship of air quality to emission sources. Links air pollution to multimedia environmental assessment. Letter grading.
Share
Chemical Engineering 113 - Air Pollution Engineering
Favorite
Chemical Engineering 188: Special Courses in Chemical Engineering
4.00 Credits
University of California-Los Angeles
Seminar, four hours; outside study, eight hours. Special topics in chemical engineering for undergraduate students that are taught on experimental or temporary basis, such as those taught by resident and visiting faculty members. May be repeated once for credit with topic or instructor change. Letter grading.
Share
Chemical Engineering 188 - Special Courses in Chemical Engineering
Favorite
Chemical Engineering 194: Research Group Seminars:Chemical Engineering
4.00 Credits
University of California-Los Angeles
Seminar, four hours; outside study, eight hours. Designed for undergraduate students who are part of research group. Discussion of research methods and current literature in field. May be repeated for credit. Letter grading.
Share
Chemical Engineering 194 - Research Group Seminars:Chemical Engineering
Favorite
Chemical Engineering 199: Directed Research in Chemical Engineering
3.00 Credits
University of California-Los Angeles
Tutorial, to be arranged. Limited to juniors/seniors. Supervised individual research or investigation of selected topic under guidance of faculty mentor. Culminating paper or project required. May be repeated for credit with school approval. Individual contract required; enrollment petitions available in Office of Academic and Student Affairs. Letter grading.
Share
Chemical Engineering 199 - Directed Research in Chemical Engineering
Favorite
Chemical Engineering 2: Technology and Environment
4.00 Credits
University of California-Los Angeles
Lecture, four hours; outside study, eight hours. Natural and anthropogenic flows of materials at global and regional scales. Case studies of natural cycles include global warming ( CO2 cycles), stratospheric ozone depletion (chlorine and ozone cycles), and global nitrogen cycles. Flow of materials in industrial economies compared and contrasted with natural flows; presentation of lifecycle methods for evaluating environmental impact of processes and products. P/NP or letter grading.
Share
Chemical Engineering 2 - Technology and Environment
Favorite
Chemical Engineering C 111: Cryogenics and Low-Temperature Processes
4.00 Credits
University of California-Los Angeles
Lecture, four hours; discussion, one hour; outside study, seven hours. Requisites: courses 102A, 102B (or Materials Science 130). Fundamentals of cryogenics and cryoengineering science pertaining to industrial low-temperature processes. Basic approaches to analysis of cryofluids and envelopes needed for operation of cryogenic systems; low-temperature behavior of matter, optimization of cryosystems and other special conditions. Concurrently scheduled with course C211. Letter grading.
Share
Chemical Engineering C 111 - Cryogenics and Low-Temperature Processes
Favorite
First
Previous
71
72
73
74
75
Next
Last
Results Per Page:
10
20
30
40
50
Search Again
To find college, community college and university courses by keyword, enter some or all of the following, then select the Search button.
College:
(Type the name of a College, University, Exam, or Corporation)
Course Subject:
(For example: Accounting, Psychology)
Course Prefix and Number:
(For example: ACCT 101, where Course Prefix is ACCT, and Course Number is 101)
Course Title:
(For example: Introduction To Accounting)
Course Description:
(For example: Sine waves, Hemingway, or Impressionism)
Distance:
Within
5 miles
10 miles
25 miles
50 miles
100 miles
200 miles
of
Zip Code
Please enter a valid 5 or 9-digit Zip Code.
(For example: Find all institutions within 5 miles of the selected Zip Code)
State/Region:
Alabama
Alaska
American Samoa
Arizona
Arkansas
California
Colorado
Connecticut
Delaware
District of Columbia
Federated States of Micronesia
Florida
Georgia
Guam
Hawaii
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Louisiana
Maine
Marshall Islands
Maryland
Massachusetts
Michigan
Minnesota
Minor Outlying Islands
Mississippi
Missouri
Montana
Nebraska
Nevada
New Hampshire
New Jersey
New Mexico
New York
North Carolina
North Dakota
Northern Mariana Islands
Ohio
Oklahoma
Oregon
Palau
Pennsylvania
Puerto Rico
Rhode Island
South Carolina
South Dakota
Tennessee
Texas
Utah
Vermont
Virgin Islands
Virginia
Washington
West Virginia
Wisconsin
Wyoming
American Samoa
Guam
Northern Marianas Islands
Puerto Rico
Virgin Islands