Jun 24, 2024  
2018-2019 University Catalog 
    
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2018-2019 University Catalog [ARCHIVED CATALOG]

Index of Courses

 

Management and Human Resources
  

  • MHR 4430 - Launching a New Venture (3)

    The process of launching a new venture. Emphasis is given to the implementation of key tools and processes required to build a successful start-up (or, at a minimum, reduce the risk of failure).

    Prerequisite(s): MHR 3410  or MHR 320.
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MHR 4440 - Social Entrepreneurship (3)

    The application of entrepreneurial concepts and skills to solve or ameliorate societal problems. Examination of profit seeking, not-for-profit, and hybrid ventures with an authentic social mission.

    Prerequisite(s): Junior standing.
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MHR 4450 - Family Business and Franchising (3)

    Alternative ways to practice entrepreneurship. Focus should be given to key issues within family business and franchising. Personal and interpersonal issues associated with family-owned/managed firms; competitive strengths/weaknesses in family firms; dynamics of family interactions and the business culture; conflict resolution; estate planning; planning for succession. Franchising topics should include history, selection of a franchise, marketing and financial statements.

    Prerequisite(s): MHR 3410  or MHR 320.
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MHR 4460 - Business Planning (3)

    The process of developing an effective business plan, including managerial philosophies and capabilities, financials, marketing, and operations for a new business.

    Prerequisite(s): MHR 3410  or MHR 320.
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MHR 4610 - Senior Project (3)

    Selection and completion of a project under faculty supervision. Projects typical of problems which graduates must solve in their fields of employment. Formal report required.

    Prerequisite(s): Senior standing.
    Component(s): Supervisory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MHR 4990 - Special Topics for Upper Division Students (1-3)

    Group study at an advanced level of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Lecture, Seminar
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MHR 4990A - Special Topics for Upper Division Students Activity (1-3)

    Group study at an advanced level of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Activity
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MHR 4990L - Special Topics for Upper Division Students Laboratory (1-3)

    Group study at an advanced level of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.

Manufacturing Engineering
  

  • MFE 1260 - Engineering Graphics I (1)

    Engineering graphics for product design, manufacturing and construction. Emphasis on graphic communication used for processing parts and layouts. Orthographic projection, pictorial views, section and auxiliary views, dimensioning for production-processing, and the four fundamental views of descriptive geometry. Use of instruments and CAD for engineering drawings.

    Corequisite(s): MFE 1260L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 1260L - Engineering Graphics I Laboratory (1)

    Engineering graphics for product design, manufacturing and construction. Emphasis on graphic communication used for processing parts and layouts. Orthographic projection, pictorial views, section and auxiliary views, dimensioning for production-processing, and the four fundamental views of descriptive geometry. Use of instruments and CAD for engineering drawings

    Corequisite(s): MFE 1260 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 2000 - Special Study for Lower Division Students (1-3)

    Individual or group investigation, research, studies, or surveys of selected problems. Proposals to be initiated by student(s) with guidance from faculty. Total credit limited to 6 units, with a maximum of 3 units per semester.

    Component(s): Supervisory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units, with a maximum of 3 units per semester.
  

  • MFE 2010 - Manufacturing Systems and Processes (2)

    Study of basic manufacturing processes with emphasis on terminology, technology, process principles and capabilities, material selection and comparative advantages and disadvantages. Processes discussed include material removal, joining, assembly, 3D printing and casting. Other topics include NC, measurement and gaging, and statistical methods.

    Corequisite(s): MFE 2010L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 2010L - Manufacturing Systems and Processes Laboratory (1)

    Study of basic manufacturing processes with emphasis on terminology, technology, process principles and capabilities, material selection and comparative advantages and disadvantages. Processes discussed include material removal, joining, assembly, 3D printing and casting. Other topics include NC, measurement and gaging, and statistical methods.

    Corequisite(s): MFE 2010 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 2171 - Manufacturing Processes-Materials, Metrology and Treatments (2)

    Provides basic knowledge of engineering materials and the enhancement of their mechanical properties; measurement methods and process controls. Heat treatment of materials. Non-destructive evaluation of materials.

    Prerequisite(s): CHM 121 or CHM 1210 .
    Corequisite(s): MFE 2171L 
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 2171L - Manufacturing Processes-Materials, Metrology and Treatments Laboratory (1)

    Provides basic knowledge of engineering materials and the enhancement of their mechanical properties; measurement methods and process controls. Heat treatment of materials. Non-destructive evaluation of materials.

    Corequisite(s): MFE 2171 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 2211 - Manufacturing Processes- Casting, Forming, Joining, Metal Removal (3)

    Theory and practice related to processes dealing with the deformation, consolidation, casting and material removal processes of engineering materials. Modern manufacturing methods are explored with emphasis placed on the application of engineering principles to the production of marketable products. Topics include: molding, casting, powder metallurgy, hot and cold working, welding and material removal.

    Prerequisite(s):  MFE 217, MFE 2171 , or ETM 2171 .
    Corequisite(s): MFE 2211L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 2211L - Manufacturing Processes- Casting, Forming, Joining, Metal Removal Laboratory (1)

    Theory and practice related to processes dealing with the deformation, consolidation, casting and material removal processes of engineering materials. Modern manufacturing methods are explored with emphasis placed on the application of engineering principles to the production of marketable products. Topics include: molding, casting, powder metallurgy, hot and cold working, welding and material removal.

    Corequisite(s): MFE 2211 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 2261 - Engineering Graphics I (2)

    Engineering graphics for product design, manufacturing and construction. Emphasis on graphic communication used for processing parts and layouts using CAD. Orthographic projection, pictorial views, section and auxiliary views, dimensioning and tolerancing for production-processing. Emphasis is also placed on preparation of detail and assembly drawings with the application of geometric dimensioning and tolerancing (ASME 14.5).

    Corequisite(s): MFE 2261L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 2261L - Engineering Graphics Laboratory (1)

    Engineering graphics for product design, manufacturing and construction. Emphasis on graphic communication used for processing parts and layouts using CAD. Orthographic projection, pictorial views, section and auxiliary views, dimensioning and tolerancing for production-processing. Emphasis is also placed on preparation of detail and assembly drawings with the application of geometric dimensioning and tolerancing (ASME 14.5).

    Corequisite(s): MFE 2261  .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 2501 - Numerical Control and CAM (3)

    Principles and applications of numerical control in manufacturing, manual and Computer assisted programming, CNC systems including advanced NC systems for full contouring, Macro and variable programming, programmable for CNC and DNC applications in industry. Integration of computer aided design principles such as part design specifications and producibility concepts into computer aided manufacturing applications. Emphasis on machine tools for flexible automation. CNC machine data generation and CAD û CAM interface and communication of automated systems.

    Prerequisite(s): MFE 201,MFE 2010 , MFE 221, or MFE 2211 .
    Corequisite(s): MFE 2501L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 2501L - Numerical Control and CAM Laboratory (1)

    Principles and applications of numerical control in manufacturing, manual and Computer assisted programming, CNC systems including advanced NC systems for full contouring, Macro and variable programming, programmable for CNC and DNC Applications in industry. Integration of computer aided design principles such as part design specifications and producibility concepts into computer aided manufacturing applications. Emphasis on machine tools for flexible automation. CNC machine data generation and CAD/CAM interface and communication of automated systems.

    Corequisite(s): MFE 2501 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 2990 - Special Topics for Lower Division Students (1-3)

    Group study of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Lecture, Seminar
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MFE 2990A - Special Topics for Lower Division Students Activity (1-3)

    Group study of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Activity
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MFE 2990L - Special Topics for Lower Division Students Laboratory (1-3)

    Group study of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MFE 3221L - Manufacturing Metrology Laboratory (1)

    The science of engineering measurement as used in inspection and quality control. Emphasis on the general use of scientific measuring devises and measurement assurance Automated measuring systems. Gage R&R studies.

    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 3260 - Design for Manufacturing (1)

    The utilization of engineering concepts in the planning and design of processes and products. Selection of appropriate manufacturing processes and systems; sequences of operations, equipment and facilities; methods and tooling to assure optimum productibility.

    Prerequisite(s): IME 314 or IME 3140 ; MFE 226 or MFE 2261 ; MFE 250 or MFE 2501 ; and MFE 201, MFE 230, or MFE 2211 .
    Corequisite(s): MFE 3260L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 3260L - Design for Manufacturing Laboratory (1)

    The utilization of engineering concepts in the planning and design of processes and products. Selection of appropriate manufacturing processes and systems; sequences of operations, equipment and facilities; methods and tooling to assure optimum productibility.

    Corequisite(s): MFE 3260 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 3341 - Net Shape Engineering (2)

    Investigation of the various casting techniques characteristic of modern net shape production including foundry practice, the use of 3D printing technology and CNC. Green sand, sodium silicate, shell core, shell mold, investment, die casting and lost foam considered in relation to required molds, patterns, melting processes and materials. Computer applications include simulation software for mold system design.

    Prerequisite(s): MFE 201, MFE 2010 , MFE 230, or MFE 2211 .
    Corequisite(s): MFE 3341L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 3341L - Net Shape Engineering Laboratory (1)

    Investigation of the various casting techniques characteristic of modern net shape production including foundry practice, the use of 3D printing technology and CNC. Green sand, sodium silicate, shell core, shell mold, investment, die casting and lost foam considered in relation to required molds, patterns, melting processes and materials. Computer applications include simulation software for mold system design.

    Corequisite(s): MFE 3341 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 4000 - Special Study for Upper Division Students (1-3)

    Individual or group investigation, research, studies, or surveys of selected problems at advanced level. Proposals to be initiated by student(s) with guidance from faculty. Total credit limited to 6 units, with a maximum of 3 units per semester.

    Component(s): Supervisory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units, with a maximum of 3 units per semester.
  

  • MFE 4060 - Safety Engineering (2)

    Principles of Safety Engineering applied to engineering industries. Control of noise, heat, electrical hazards, vibration, radiation, lighting, and air contaminants in the work place. Accident prevention. Material handling safety, machine guards and personal protection.

    Prerequisite(s): Junior Standing.
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 4380 - Plastics Engineering (2)

    Plastic materials and their processing. Review of the pertinent organic chemistry of polymer materials. Classification, properties, characteristics and applications of plastics; polyethylene, PVC, ABS, polyesters, phenolics and urethanes. Study of processes including injection molding, extrusion, thermoforming and blowmolding; applications, process parameters, quality, economics and tooling considerations.

    Prerequisite(s): MFE 201, MFE 2010 , MFE 230, or MFE 2211 .
    Corequisite(s): MFE 4380L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 4380L - Plastics Engineering Laboratory (1)

    Plastic materials and their processing. Review of the pertinent organic chemistry of polymer materials. Classification, properties, characteristics and applications of plastics; polyethylene, PVC, ABS, polyesters, phenolics and urethanes. Study of processes including injection molding, extrusion, thermoforming and blowmolding; applications, process parameters, quality, economics and tooling considerations.

    Corequisite(s): MFE 4380 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 4391 - Composites Manufacturing (2)

    Current topics in plastics processing. Basics of composite properties; strength with respect to fiber loading-type and orientation. Processing methods for composite production; manual lay-up, vacuum, filament winding. Metal and ceramic matrix composites.

    Prerequisite(s): MFE 201, MFE 2010 , MFE 230, or MFE 2211 .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 4501 - Introduction to Computer Integrated Manufacturing and Automation (2)

    Mechanization/automation/mechatronics. Problems and methods of mechanization. Material handling systems. Robotics. Elements of automation - sensors, analyzers, actuators, and drives. Control strategies - industrial control, discrete time/event driven systems, feed-back systems, and optimal control strategies. Robotic systems. NC machines. Automated inspection and identification techniques. Computer process control. Transfer lines.

    Prerequisite(s):  ECE 231 or CHE 2301 ; MFE 201, MFE 2010 , MFE 230, or MFE 2211 ; and MAT 224 or MAT 2240 .
    Corequisite(s): MFE 4501L 
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 4501L - Introduction to Computer Integrated Manufacturing and Automation Laboratory (1)

    Mechanization/automation/mechatronics. Problems and methods of mechanization. Material handling systems. Robotics. Elements of automation - sensors, analyzers, actuators, and drives. Control strategies - industrial control, discrete time/event driven systems, feed-back systems, and optimal control strategies. Robotic systems. NC machines. Automated inspection and identification techniques. Computer process control. Transfer lines.

    Corequisite(s): MFE 4501 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 4650 - Metal Working Theory and Applications (3)

    Major emphasis on estimating forces required to produce the desired shape changes when metals are plastically deformed. Metal working processes such as drawing, extrusion, forging and rolling are discussed. Stress-strain relations and yield criteria for ductile metals.

    Prerequisite(s): MFE 201, MFE 230, MFE 221, MFE 2010 , or MFE 2211 ; and ME 218 or CE 2051 .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 4840 - Producibility Engineering (2)

    Engineering methodologies and design practices, which have proven in industry to improve product producibility, reliability, and quality, are presented. Concepts include concurrent engineering, just in time manufacture, and cellular arrangements for flexible manufacturing.

    Prerequisite(s): Junior Standing.
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MFE 4990 - Special Topics for Upper Division Students (1-3)

    Group study at an advanced level of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Lecture, Seminar
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MFE 4990A - Special Topics for Upper Division Students Activity (1-3)

    Group study at an advanced level of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Activity
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MFE 4990L - Special Topics for Upper Division Students Laboratory (1-3)

    Group study at an advanced level of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.

Materials Engineering
  

  • MTE 2000 - Special Study for Lower Division Students (1-3)

    Individual or group investigation, research, studies, or surveys of selected problems. Proposals to be initiated by student(s) with guidance from faculty. Total credit limited to 6 units, with a maximum of 3 units per semester.

    Component(s): Supervisory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units, with a maximum of 3 units per semester.
  

  • MTE 2070 - Materials Science and Engineering (2)

    Introduction to the fundamentals and applications of materials engineering. Atomic, molecular, and crystalline structures and properties of materials with their relevance to engineering. Topics will include: diffusion, defects, phase diagrams, heat treatment, mechanical behavior, and will cover the different materials classes, i.e., metals, ceramics, polymers, and composites.

    Prerequisite(s): CHM 1210 , CHM 1150 , CHM 121, or CHM 115; PHY 131 or PHY 1510 ; PHY 131L or PHY 1510L ; and MAT 116 or MAT 1150 .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 2990 - Special Topics for Lower Division Students (1-3)

    Group study of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Lecture, Seminar
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MTE 2990A - Special Topics for Lower Division Students Activity (1-3)

    Group study of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Activity
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MTE 2990L - Special Topics for Lower Division Students Laboratory (1-3)

    Group study of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MTE 3030 - Polymer Materials (2)

    Introduction to the structure, properties, behavior, and processing of polymers as engineering materials. Design of reinforced and unreinforced polymers, and the processing methods used in the manufacture of products.

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and ME 350L, ME 3501L , MTE 317L, or MTE 3170L ; and CHE 311, CHE 3111 , ME 311, or ME 3111 .
    Corequisite(s): MTE 3030L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 3030L - Polymer Materials Laboratory (1)

    Introduction to the structure, properties, behavior, and processing of polymers as engineering materials. Design of reinforced and unreinforced polymers, and the processing methods used in the manufacture of products.

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and ME 350L, ME 3501L , MTE 317L, or MTE 3170L ; and CHE 311, CHE 3111 , ME 311, or ME 3111 .
    Corequisite(s): MTE 3030 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 3170L - Materials Science and Engineering Laboratory (1)

    Hands-on experiences to reinforce fundamental materials engineering concepts. Crystal models, microscopy, hardness tests, strengthening, and heat treatment. Materials selection and design. Emphasis on technical written and oral communication skills. Safety awareness reinforced throughout the course. Elements of statistics and experimental design.

    Prerequisite(s): MTE 207 or MTE 2070 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 3200 - Mechanical Metallurgy (2)

    A comprehensive exploration of the field of mechanical metallurgy including the continuum description of stress and strain, the flow and fracture of metals from the defect mechanism point of view, the tests used for determining mechanical properties, and the fundamental/analytical techniques applied to the various metalworking processes used in industry.

    Prerequisite(s):  MTE 207, MTE 2070 , ME 315, or ME 3150 ; and MTE 350L, ME 3501L , MTE 317L, or MTE 3170L .
    Corequisite(s): MTE 3200L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 3200L - Mechanical Metallurgy Laboratory (1)

    A comprehensive exploration of the field of mechanical metallurgy including the continuum description of stress and strain, the flow and fracture of metals from the defect mechanism point of view, the tests used for determining mechanical properties, and the fundamental/analytical techniques applied to the various metalworking processes used in industry.

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and ME 350L, ME 3501L , MTE 317L, MTE 3170L .
    Corequisite(s): MTE 3200 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 3270 - Advanced Science of Materials (2)

    Advanced concepts of materials science and their relevance to engineering. Origin of electronic, thermal, magnetic and optical properties. Applications of electronic, magnetic, and optical materials.

    Prerequisite(s): MTE 207 or MTE 2070 , MTE 317L or MTE 3170L , PHY 133 or PHY 1520 , and PHY 133L or  PHY 1520L .
    Corequisite(s): MTE 3270L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 3270L - Advanced Science of Materials Laboratory (1)

    Advanced concepts of materials science and their relevance to engineering. Origin of electronic, thermal, magnetic and optical properties. Applications of electronic, magnetic, and optical materials.

    Prerequisite(s): MTE 207 or MTE 2070 , MTE 317L or MTE 3170L , PHY 133 or PHY 1520 , and PHY 133L or PHY 1520L .
    Corequisite(s): MTE 3270 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 3280 - Thermodynamics of Materials (3)

    Macroscopic thermodynamics, the study of energy and its transformations, as it applies to the field of materials in the solid and liquid state. Detailed topics to be covered are the first and second law, property relationships, equilibrium, electrochemistry, solutions and mixing, phase rule and phase diagrams. In addition, an introduction to microscopic thermodynamics or statistical thermodynamics will be included as it applies to the understanding of the macroscopic properties and behavior of materials.

    Prerequisite(s): GE Area A2, ME 315 or MTE 207; and MTE 2070 , ME 3150  or MTE 317L; and CHE 2021  or CHE 202.
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 3371 - Joining of Materials (2)

    Introduction to the principles, methods and applications of joining as they apply to the metals, ceramics, plastics, and electronic industries. Included are fasteners, welding, brazing, soldering, adhesives, diffusion and ultrasonic bonding. Principles of mechanical, chemical, and physical phenomena related to surfaces and the mechanics of joints. The approach will be to unify the principles underlying diverse engineering technologies to the basic science of the joining processes.

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and MTE 317L, MTE 3170L , ME 350L, or ME 3501L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 3371L - Joining of Materials Laboratory (1)

    Introduction to the principles, methods and applications of joining as they apply to the metals, ceramics, plastics, and electronic industries. Included are fasteners, welding, brazing, soldering, adhesives, diffusion and ultrasonic bonding. Principles of mechanical, chemical, and physical phenomena related to surfaces and the mechanics of joints. The approach will be to unify the principles underlying diverse engineering technologies to the basic science of the joining processes.

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and MTE 317L, MTE 3170L , ME 350L, or ME 3501L .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 3381 - Kinetic Processes in Materials (3)

    Physical chemistry applied to materials engineering. Topics include: surfaces and interfaces; nucleation and growth theory; diffusional and non-diffusional transformations; precipitation from the solid solution, reaction kinetics, and introduction to non-equilibrium thermodynamics.

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and MTE 317L, MTE 3170L , ME 350L, or ME 3501L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4000 - Special Study for Upper Division Students (1-3)

    Individual or group investigation, research, studies, or surveys of selected problems at advanced level. Proposals to be initiated by student(s) with guidance from faculty. Total credit limited to 6 units, with a maximum of 3 units per semester.

    Component(s): Supervisory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units, with a maximum of 3 units per semester.
  

  • MTE 4010 - Corrosion And Materials Degradation (2)

    Fundamental principles of corrosion science, application of these principles to corrosion engineering problems and materials selection. Topics to be covered include: thermodynamics and kinetics of metallic corrosion; corrosive/destructive environments, the different forms of corrosion and degradation, corrosion/degradation prevention; principles of materials selection.

    Prerequisite(s): ME 302, ME 3121 , CHE 303, or CHE 3031 ; and MTE 207, MTE 2070 , ME 315, or ME 3150 .
    Corequisite(s): MTE 4010L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4010L - Corrosion And Materials Degradation Laboratory (1)

    Fundamental principles of corrosion science, application of these principles to corrosion engineering problems and materials selection. Topics to be covered include: thermodynamics and kinetics of metallic corrosion; corrosive/destructive environments, the different forms of corrosion and degradation, corrosion/degradation prevention; principles of materials selection.

    Prerequisite(s): CHE 3031 , ME 3121 , CHE 303 or ME 302; and MTE 2070 , ME 3150 , MTE 207 or ME 315.
    Corequisite(s): MTE 4010 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4040 - Electronic Materials (3)

    Advanced concepts of electronic materials and their engineering applications. Physical principles, processing, and materials selection for circuits, magnets, transducers, memories, integrated circuits, displays and superconductors.

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and MTE 317L, MTE 3170L , ME 350L, or ME 3501L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4050 - Physical Metallurgy - Mechanical Properties (3)

    Basic principles underlying the structure and properties of crystalline solids. Metallic and covalent bonding theories; crystallography; solid solutions; intermetallic compounds and alloys. Crystal imperfections; elastic and plastic deformation. Ductile and brittle fracture, fatigue and creep.

    Prerequisite(s): GE Area A2; and MTE 207, MTE 2070 , ME 315, or ME 3150 ; and ME 301, ME 3011 , CHE 302, or CHE 3021 .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4060 - Physical Metallurgy - Solidification and Strengthening Reactions (2)

    Principles of solid-state reactions including elementary kinetics, nucleation and growth theory; annealing of cold-worked metals; diffusionless transformation, precipitation reactions and tempering; physical metallurgy of steels; relation between properties and microstructure. Laboratory experiments related to phase transformations in steel, solidification structures, precipitation hardening, and plant trips.

    Prerequisite(s):  MTE 207, MTE 2070 , ME 315, or ME 3150 ; and ME 301, ME 3011 , CHE 302, or CHE 3021 .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4060L - Physical Metallurgy Solidification and Strengthening Reactions Laboratory (1)

    Principles of solid-state reactions including elementary kinetics, nucleation and growth theory; annealing of cold-worked metals; diffusionless transformation, precipitation reactions and tempering; physical metallurgy of steels; relation between properties and microstructure. Laboratory experiments related to phase transformations in steel, solidification structures, precipitation hardening, and plant trips.

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and ME 301, ME 3011 , CHE 302, or CHE 3021 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4070 - Ceramic Materials (2)

    The composition, structure, and properties of ceramic bodies employed as structural and non-structural materials, with an emphasis on processing and their physical state, elasticity, strength, and optical, thermal, and electrical properties. Laboratory experiments related to fabrication, testing, statistical analysis, and plant trips

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and MTE 317L, MTE 3170L , ME 350L, or ME 3501L .
    Corequisite(s): MTE 4070L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4070L - Ceramic Materials Laboratory (1)

    The composition, structure, and properties of ceramic bodies employed as structural and non-structural materials, with an emphasis on processing and their physical state, elasticity, strength, and optical, thermal, and electrical properties. Laboratory experiments related to fabrication, testing, statistical analysis, and plant trips.

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and MTE 317L, MTE 3170L , ME 350L, or ME 3501L .
    Corequisite(s): MTE 4070 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4080 - Composite Materials (2)

    Introduction to composite materials engineering processing and mechanics. Properties and processing of fibers and matrices. Polymer matrix composites, metal matrix composites, ceramic composites and carbon/carbon. Lamina and laminate constitutive equations. Laminate strength analysis.

    Prerequisite(s): MTE 207,MTE 2070 , ME 315, or ME 3150 ; and MTE 317L, MTE 3170L , ME 350L, or ME 3501L .
    Corequisite(s): MTE 4080L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4080L - Composite Materials Laboratory (1)

    Introduction to composite materials engineering processing and mechanics. Properties and processing of fibers and matrices. Polymer matrix composites, metal matrix composites, ceramic composites and carbon/carbon. Lamina and laminate constitutive equations. Laminate strength analysis.

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and MTE 317L, MTE 3170L , ME 350L, or ME 3501L .
    Corequisite(s): MTE 4080 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4201 - Materials Selection and Design I (1)

    Integration of the undergraduate courses in the basic sciences, engineering sciences, materials engineering, economics, business, and general education in the integrated solution of materials selection and design problems. Analysis, selection, and evaluation of materials and processes aimed at product development. Use of numeric based selection criteria will be emphasized culminating in professional reports and presentations.

    Prerequisite(s): MTE 338 or MTE 3381 .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4201L - Materials Selection and Design I Laboratory (1)

    Integration of the undergraduate courses in the basic sciences, engineering sciences, materials engineering, economics, business, and general education in the integrated solution of materials selection and design problems. Analysis, selection, and evaluation of materials and processes aimed at product development. Use of numeric based selection criteria will be emphasized culminating in professional reports and presentations.

    Prerequisite(s): MTE 338 or MTE 3381 .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4210 - Materials Characterization and Testing (3)

    Complete overview of materials characterization and testing for metals, ceramics, polymers, and composites. Macroscopic characterization of the mechanical, electrical, and optical properties. Microscopic evaluation using x-ray, diffraction, SEM, EDAX, TEM, IR-spectroscopy, and ultrasound evaluation techniques.

    Prerequisite(s): MTE 207, MTE 2070 , ME 315, or ME 3150 ; and MTE 317L, MTE 3170L , ME 350L, or ME 3501L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4220 - Fracture and Failure Analysis (3)

    Basic principles of fracture mechanics, and applications to failure analysis. Topics include: elements of fracture mechanics, ductile and brittle fracture, residual stresses, creep, fatigue, environmental effects, statistical distributions, and design issues. The approach will emphasize case histories (including guest lectures from practicing engineers on actual studies) and student presentations.

    Prerequisite(s):  MTE 207, MTE 2070 , ME 315, or ME 3150 ; and MTE 317L, MTE 3170L , ME 350L, or ME 3501L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4301 - Materials Selection and Design II (2)

    Culmination of the undergraduate courses in the basic sciences, engineering sciences, materials engineering, economics, business, and general education in the integrated solution of materials selection and design problems. Analysis, selection, and evaluation of materials and processes aimed at product development. Use of numeric- based selection criteria will be emphasized culminating in professional reports and presentations.

    Prerequisite(s): MTE 420 or MTE 4201 , and MTE 420L or MTE 4201L .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4301L - Materials Selection and Design II Laboratory (1)

    Integration of the undergraduate courses in the basic sciences, engineering sciences, materials engineering, economics, business, and general education in the integrated solution of materials selection and design problems. Analysis, selection, and evaluation of materials and processes aimed at product development. Use of numeric based selection criteria will be emphasized culminating in professional reports and presentations.

    Prerequisite(s): MTE 420 or MTE 4201 , and MTE 420L or MTE 4201L .
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 4990 - Special Topics for Upper Division Students (1-3)

    Group study at an advanced level of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Lecture, Seminar
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MTE 4990A - Special Topics for Upper Division Students Activity (1-3)

    Group study at an advanced level of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Activity
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MTE 4990L - Special Topics for Upper Division Students Laboratory (1-3)

    Group study at an advanced level of a selected well-defined topic or area not covered by a regularly offered course.

    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MTE 5000 - Special Study for Graduate Students (1-3)

    Individual or group investigation, research, studies, or surveys of selected problems at graduate level. Proposals to be initiated by student(s) with guidance from faculty. Total credit limited to 6 units, with a maximum of 3 units per semester.

    Component(s): Supervisory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units, with a maximum of 3 units per semester.
  

  • MTE 5280 - Materials Thermodynamics (3)

    Advanced macroscopic thermodynamics applied to materials in the solid and liquid states. Laws of thermodynamics, important thermodynamic functions, multicomponent phase equilibria, electrochemistry, solutions and mixing, phase rule and phase diagrams. Discussion of applications and statistical thermodynamics.

    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 5330 - Mechanical Properties of Materials (3)

    Study of the mechanical behavior of materials. Fundamental mechanisms controlling deformation and fracture in solid materials. Strain hardening, creep, fatigue, ductile and brittle fracture. Strengthening mechanisms involving alloying and heat treatment. Superplasticity. 3 hours lecture/problem solving.

    Component(s): Lecture
    Contact Hour(s): 3 hours lecture/problem solving.
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 5460 - Phase Transformations (3)

    Principles of solid-state reactions including nucleation and growth theory, diffusional and shear transformations, the shape-memory effect, transformation toughening, thermal treatment of solids. Special topics include metallic and silicate glasses, physical metallurgy of steels and superalloys.

    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 5550 - Advanced Corrosion and Environmental Degradation (3)

    Thermodynamics and kinetics of corrosion. Nernst and Tafel equations. Pourbaix diagrams. Electrochemical basis for corrosion. Fundamental approach to corrosion and corrosion control. Microbially Induced Corrosion. Biofouling. Degradation of polymers. Weathering of structural and architectural materials.

    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 5990 - Special Topics for Graduate Students (1-3)

    Group study at a graduate level of a selected well-defined topic or area not covered by a regularly offered course.

    Prerequisite(s): Graduate Standing.
    Component(s): Lecture, Seminar
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MTE 5990A - Special Topics for Graduate Students Activity (1-3)

    Group study at a graduate level of a selected well-defined topic or area not covered by a regularly offered course.

    Prerequisite(s): Graduate Standing.
    Component(s): Activity
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MTE 5990L - Special Topics for Graduate Students Laboratory (1-3)

    Group study at a graduate level of a selected well-defined topic or area not covered by a regularly offered course.

    Prerequisite(s): Graduate Standing.
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MTE 6300 - Materials for Energy Applications (3)

    Materials science relevant to energy generation and storage. Thermodynamics, electrochemistry, catalysis, and polymer materials science to understand polymer electrolyte membrane fuel cells. Role of materials in solid oxide fuel cells, batteries, wind, solar, ocean thermal, and nuclear energy generation. Electronic band structure and photovoltaics. Artificial leaves.

    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 6500 - Nanomaterials (3)

    Fundamental understanding of nanomaterials science. Limits to strengthening of materials at the nanoscale. Thermodynamics and kinetics at the nanoscale. Effects of dimensionality and scale. Graphene, nanotubes, fullerenes, and nanocomposites.

    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 6700 - Biomaterials (3)

    Materials and their interactions with biological hosts. Biological strategies for materials synthesis. Bio-inspired materials. Hierarchical and cellular structure of biomaterials, e.g., bones and muscles. Bio-composites. Damage, degradation, and restoration of biomaterials.

    Prerequisite(s): EGR 546 or EGR 5460 .
    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MTE 6910 - Directed Research (1-3)

    Individual research in a specialized area, under the direction of a graduate faculty member; work does not pertain directly to the thesis. Total credit limited to 6 units, with a maximum of 3 units per semester.

    Component(s): Supervisory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units, with a maximum of 3 units per semester.
  

  • MTE 6920 - Independent Research (1-3)

    Individual study/investigation and research in a specialized area proposed by the student with the approval, and under the supervision, of a graduate faculty member; work does not pertain directly to the thesis. Total credit limited to 6 units, with a maximum of 3 units per semester.

    Component(s): Supervisory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units, with a maximum of 3 units per semester.
  

  • MTE 6990 - Master’s Degree Continuation (0)

    Enrollment in this course allows candidates that have enrolled in the maximum number of thesis or project units to maintain resident status in order to receive university services.

    Component(s): Supervisory
    Grading Basis: Credit/No Credit
    Repeat for Credit: May be taken multiple times
    Repeat for Credit Limit: Unlimited

Mathematic Education
  

  • MAE 5000 - Special Study for Graduate Students (1-3)

    Individual or group investigation, research, studies, or surveys of selected problems at graduate level. Proposals to be initiated by student(s) with guidance from faculty. Total credit limited to 6 units, with a maximum of 3 units per semester.

    Component(s): Supervisory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units, with a maximum of 3 units per semester.
  

  • MAE 5600 - Problem Solving as a Mathematical Endeavor (3)

    Heuristics and strategies to solve mathematical problems, impact of technology in solving problems and in teaching problem solving, reformulation of problems and problem posing techniques, presentation of outcomes. Introduction to the mathematical problem solving literature.

    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MAE 5910 - Research in Mathematics Education (4)

    This course is a graduate seminar on research in mathematics education. The aim is an introduction to research in the field of mathematics education with an emphasis on the roles of educational theory, qualitative and quantitative research paradigms and methodologies, the analysis and critique of research.

    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MAE 5930 - Research Methods in Mathematics Education (4)

    Graduate course on research methods in mathematics education. Introduction to the various research methods used in the field of mathematics education, with a focus on the roles of educational theory, qualitative and quantitative research paradigms and methodologies. Development of research questions and study design.

    Component(s): Lecture
    Grading Basis: Graded Only
    Repeat for Credit: May be taken only once
  

  • MAE 5990 - Special Topics for Graduate Students (1-3)

    Group study at a graduate level of a selected well-defined topic or area not covered by a regularly offered course.

    Prerequisite(s): Graduate Standing.
    Component(s): Lecture, Seminar
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MAE 5990A - Special Topics for Graduate Students Activity (1-3)

    Group study at a graduate level of a selected well-defined topic or area not covered by a regularly offered course.

    Prerequisite(s): Graduate Standing.
    Component(s): Activity
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MAE 5990L - Special Topics for Graduate Students Laboratory (1-3)

    Group study at a graduate level of a selected well-defined topic or area not covered by a regularly offered course.

    Prerequisite(s): Graduate Standing.
    Component(s): Laboratory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times only with different topics
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units applicable to a degree, with a maximum of 2 sections per semester.
  

  • MAE 6910 - Directed Research (1-3)

    Individual research in a specialized area, under the direction of a graduate faculty member; work does not pertain directly to the thesis. Total credit limited to 6 units, with a maximum of 3 units per semester.

    Component(s): Supervisory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units, with a maximum of 3 units per semester.
  

  • MAE 6920 - Independent Research (1-3)

    Individual study/investigation and research in a specialized area proposed by the student with the approval, and under the supervision, of a graduate faculty member; work does not pertain directly to the thesis. Total credit limited to 6 units, with a maximum of 3 units per semester.

    Component(s): Supervisory
    Grading Basis: Graded Only
    Repeat for Credit: May be taken multiple times
    Repeat for Credit Limit: 5
    Minimum/Maximum Units: Total credit limited to 6 units, with a maximum of 3 units per semester.
 

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