Timeroom: Fall 2024

Displaying 41 - 50 of 62 Results for: Subject = ME
Durham   Engineering&Physical Sciences :: Mechanical Engineering

ME 797 (18) - Honors Seminar

Honors Seminar

Credits: 1.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   5  
CRN: 14348
Course enrichment and/or additional independent study in subject matter pertaining to a 600- or 700-level ME course other than ME 695, ME 696, ME 697, or ME 795.
Department Approval Required. Contact Academic Department for permission then register through Webcat.
Repeat Rule: May be repeated for a maximum of 3 credits.
Attributes: Honors course
Instructors: John McHugh
Start Date End Date Days Time Location
8/26/2024 12/9/2024 Hours Arranged TBA
Durham   Engineering&Physical Sciences :: Mechanical Engineering

ME 797 (19) - Honors Seminar

Honors Seminar

Credits: 1.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   5  
CRN: 14349
Course enrichment and/or additional independent study in subject matter pertaining to a 600- or 700-level ME course other than ME 695, ME 696, ME 697, or ME 795.
Department Approval Required. Contact Academic Department for permission then register through Webcat.
Repeat Rule: May be repeated for a maximum of 3 credits.
Attributes: Honors course
Instructors: Igor Tsukrov
Start Date End Date Days Time Location
8/26/2024 12/9/2024 Hours Arranged TBA
Durham   Engineering&Physical Sciences :: Mechanical Engineering

ME 807 (01) - Analytical Fluid Dynamics

Analytical Fluid Dynamics

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   5  
CRN: 12504
Kinematics of flow; constitutive relationships; development of the Navier-Stokes equations; vorticity theorems; potential flow. Prior coursework in fluid dynamics required.
Cross listed with : ME 707.01
Instructors: John McHugh
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 2:10pm - 3:00pm KING N345
Durham   Engineering&Physical Sciences :: Mechanical Engineering

ME 827 (02) - Advanced Mechanics of Solids

Advanced Mechanics of Solids

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   5  
CRN: 14713
Stress, strain, stress-strain relations, anisotropic behavior, introduction to elasticity, plane stress/strain, bending and torsion of members with general cross-sections, introduction to thin plates and shells, energy methods. Prior coursework in mechanics of materials required.
Cross listed with : ME 727.01
Instructors: Mrityunjay Kothari
Start Date End Date Days Time Location
8/26/2024 12/9/2024 R 3:40pm - 6:10pm KING N345
Durham   Engineering&Physical Sciences :: Mechanical Engineering

ME 877 (01) - Computer Aided Engineering

Computer Aided Engineering

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   3  
CRN: 11333
In this course, modules of Solid Works (beyond its basic solid modeling capabilities) and other software is used to demonstrate how computer based tools can be used in engineering practice, in particular design analysis and optimization. Emphasis placed on using knowledge from past engineering courses to obtain theoretical calculations to compare with the results from the computer software package. Prior coursework in strength of materials and fluid dynamics required.
Equivalent(s): EE 877
Cross listed with : ME 777.01
Instructors: Colin Frost
Start Date End Date Days Time Location
8/26/2024 12/9/2024 M 4:10pm - 6:00pm KING N343
8/26/2024 12/9/2024 M 6:10pm - 8:00pm KING W114
Durham   Engineering&Physical Sciences :: Mechanical Engineering

ME 877 (02) - Computer Aided Engineering

Computer Aided Engineering

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   2  
CRN: 11386
In this course, modules of Solid Works (beyond its basic solid modeling capabilities) and other software is used to demonstrate how computer based tools can be used in engineering practice, in particular design analysis and optimization. Emphasis placed on using knowledge from past engineering courses to obtain theoretical calculations to compare with the results from the computer software package. Prior coursework in strength of materials and fluid dynamics required.
Equivalent(s): EE 877
Cross listed with : ME 777.02
Instructors: Colin Frost
Start Date End Date Days Time Location
8/26/2024 12/9/2024 M 4:10pm - 6:00pm KING N343
8/26/2024 12/9/2024 T 5:10pm - 7:00pm KING W114
Durham   Engineering&Physical Sciences :: Mechanical Engineering

ME 886 (01) - Introduction to Finite Element Analysis

Intro Finite Element Analysis

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   10  
CRN: 16328
Topics include basic matrix theory, potential energy approach, direct stiffness method, calculus of variations, development of finite element theory, and modeling techniques. Applications in solid mechanics, heat transfer, fluids, and electromagnetic devices, via both commercially available codes and student written codes. Prior coursework in mechanics of materials and heat transfer required. Lab.
Cross listed with : ME 786.01
Instructors: Igor Tsukrov
Start Date End Date Days Time Location
8/26/2024 12/9/2024 M 6:40pm - 7:30pm PETT G10
8/26/2024 12/9/2024 TR 11:10am - 12:30pm PETT G10
Durham   Engineering&Physical Sciences :: Mechanical Engineering

ME 899 (01) - Master's Thesis

Master's Thesis

Credits: 1.0 to 8.0
Term: Fall 2024 - Full Term - Grad Thesis (08/26/2024 - 12/09/2024)
Grade Mode: Graduate Credit/Fail grading
Class Size:   5  
CRN: 13944
Master's Thesis.
Repeat Rule: May be repeated for a maximum of 8 credits.
Instructors: Jinjin Ha
Start Date End Date Days Time Location
8/26/2024 12/9/2024 Hours Arranged TBA
Durham   Engineering&Physical Sciences :: Mechanical Engineering

ME 899 (02) - Master's Thesis

Master's Thesis

Credits: 1.0 to 8.0
Term: Fall 2024 - Full Term - Grad Thesis (08/26/2024 - 12/09/2024)
Grade Mode: Graduate Credit/Fail grading
Class Size:   5  
CRN: 15542
Master's Thesis.
Repeat Rule: May be repeated for a maximum of 8 credits.
Instructors: May-Win Thein
Start Date End Date Days Time Location
8/26/2024 12/9/2024 Hours Arranged TBA
Durham   Engineering&Physical Sciences :: Mechanical Engineering

ME 927 (01) - Theory of Plasticity

Theory of Plasticity

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   15  
CRN: 16326
Analysis of stress and deformation in inelastic solids; general development of stress invariants, variational principles, constitutive relations, and yield and loading functions. Special emphasis on ideal plasticity, strain-hardening, creep, limit analysis, and limit design.
Instructors: Jinjin Ha
Start Date End Date Days Time Location
8/26/2024 12/9/2024 T 3:10pm - 6:00pm KING W108