College and University Course Search Results

Course Criteria

Add courses to your favorites to save, share, and find your best transfer school.

CER ENG 392: X-Ray Diffraction Analysis

3.00 Credits

Missouri University of Science and Technology

Theory and practical aspects of x-ray diffraction analysis are covered including diffraction theory, qualitative and quantitative analysis techniques, electronic databases, and operation of modern powder diffractometers. Students cannot receive credit for both Cer Eng 292 and Cer Eng 392. Prerequisite: Preceded or accompanied by Cer Eng 291.

ShareCER ENG 392 - X-Ray Diffraction Analysis

Favorite
CER ENG 400: Special Problems

0.00 - 6.00 Credits

Missouri University of Science and Technology

Problems or readings on specific subjects or projects in the department. Consent of instructor required.

ShareCER ENG 400 - Special Problems

Favorite
CER ENG 401: Special Topics

0.00 - 6.00 Credits

Missouri University of Science and Technology

This course is designed to give the department an opportunity to test a new course. Variable title.

ShareCER ENG 401 - Special Topics

Favorite
CER ENG 405: Interfacial Phenomena

3.00 Credits

Missouri University of Science and Technology

The nature and constitution of inorganic interfaces, surface processes and consequences, epitaxy, thermal grooving, UHV techniques, field emission-ionization and evaporation, surface models, adsorption and nucleation.

ShareCER ENG 405 - Interfacial Phenomena

Favorite
CER ENG 416: Composite Materials

3.00 Credits

Missouri University of Science and Technology

The objective of this course is to give the students an understanding of the processing, design, and mechanical behavior of composite materials. The course will treat both fiber reinforced and laminate-based composites with an emphasis on the macromechanical behavior of these composites with respect to their architecture. Prerequisite: Graduate Standing.

ShareCER ENG 416 - Composite Materials

Favorite
CER ENG 418: Optical Properties Of Materials

3.00 Credits

Missouri University of Science and Technology

The objective of this course is to give the student a fundamental understanding of the structure-optical property relationships exhibited by isotropic and anisotropic materials. Topics will include the wave/particle nature of light, how light interacts with materials, color, and applications such as lasers, fiber optic communication systems, electro-optics, and integrated optics. Prerequisites: Physics 24 or 25 and Math 22.

ShareCER ENG 418 - Optical Properties Of Materials

Favorite
CER ENG 423: Sintering And Microstructure Development

3.00 Credits

Missouri University of Science and Technology

Theory and practice of densification, microstructure evolution, effect of processing and material factors, grain boundary migration, grain growth. Prerequisite: Graduate standing.

ShareCER ENG 423 - Sintering And Microstructure Development

Favorite
CER ENG 440: Biomaterials II

3.00 Credits

Missouri University of Science and Technology

This course will introduce graduate students to a broad array of topics in biomaterials, including ceramic, metallic, and polymeric biomaterials for in vivo use, basic concepts related to cells and tissues, host reactions to biomaterials, biomaterials-tissue compatibility, and degradation of biomaterials. A term paper and oral presentation are required. Prerequisite: Graduate Standing. (Co-listed with Bio Sci 440, Met Eng 440, Chem Eng 440)

ShareCER ENG 440 - Biomaterials II

Favorite
CER ENG 450: Advanced Topics On The Vitreous State

3.00 Credits

Missouri University of Science and Technology

Modern aspects of the structure and dynamics of inorganic vitreous materials will be reviewed and applied towards understanding the macroscopic properties of glasses. Prerequisite: Graduate standing.

ShareCER ENG 450 - Advanced Topics On The Vitreous State

Favorite
CER ENG 458: Electroceramic Composite

3.00 Credits

Missouri University of Science and Technology

The objective of this course is to give the student an understanding of the structure--property relationships exhibited by electroceramic composites. The composites of interest cover a wide range of electrical phenomena including composite dielectrics, piezoelectrics, conductors, magnets, and optics. Prerequisite: Cer Eng 284.

ShareCER ENG 458 - Electroceramic Composite

Favorite

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