Timeroom: Spring 2024

Durham Engineering&Physical Sciences :: Mechanical Engineering

ME 899 (14) - Master's Thesis

Master's Thesis

Credits: 1.0 to 8.0
Term: Spring 2024 - Full Term - Grad Thesis (01/23/2024 - 05/06/2024)
Grade Mode: Graduate Credit/Fail grading

Class Size: 5
CRN: 51634

Master's Thesis.

Repeat Rule: May be repeated for a maximum of 8 credits.

Instructors: Mrityunjay Kothari

Start Date	End Date	Days	Time	Location
1/23/2024	5/6/2024		Hours Arranged	TBA

Durham Engineering&Physical Sciences :: Mechanical Engineering

ME 899 (15) - Master's Thesis

Master's Thesis

Credits: 1.0 to 8.0
Term: Spring 2024 - Full Term - Grad Thesis (01/23/2024 - 05/06/2024)
Grade Mode: Graduate Credit/Fail grading

Class Size: 5
CRN: 51635

Master's Thesis.

Repeat Rule: May be repeated for a maximum of 8 credits.

Instructors: Martin Wosnik

Start Date	End Date	Days	Time	Location
1/23/2024	5/6/2024		Hours Arranged	TBA

Durham Engineering&Physical Sciences :: Mechanical Engineering

ME 899 (16) - Master's Thesis

Master's Thesis

Credits: 1.0 to 8.0
Term: Spring 2024 - Full Term - Grad Thesis (01/23/2024 - 05/06/2024)
Grade Mode: Graduate Credit/Fail grading

Class Size: 5
CRN: 51636

Master's Thesis.

Repeat Rule: May be repeated for a maximum of 8 credits.

Instructors: Nathan Laxague

Start Date	End Date	Days	Time	Location
1/23/2024	5/6/2024		Hours Arranged	TBA

Durham Engineering&Physical Sciences :: Mechanical Engineering

ME 899 (17) - Master's Thesis

Master's Thesis

Credits: 1.0 to 8.0
Term: Spring 2024 - Full Term - Grad Thesis (01/23/2024 - 05/06/2024)
Grade Mode: Graduate Credit/Fail grading

Class Size: 5
CRN: 52258

Master's Thesis.

Repeat Rule: May be repeated for a maximum of 8 credits.

Instructors: John McHugh

Start Date	End Date	Days	Time	Location
1/23/2024	5/6/2024		Hours Arranged	TBA

Durham Engineering&Physical Sciences :: Mechanical Engineering

ME 944 (01) - Nonlinear Control Systems

Nonlinear Control Systems

Credits: 4.0
Term: Spring 2024 - Full Term (01/23/2024 - 05/06/2024)
Grade Mode: Letter Grading

Class Size: 15
CRN: 57038

Analysis and design of nonlinear control systems from the classical and modern viewpoints are discussed. Liapunov's stability theory; phase space methods; linearization techniques; simulation; frequency response methods; generalized describing functions; transient analysis utilizing functional analysis; and decoupling of multivariable systems. Prior coursework in control systems required.

Registration Approval Required. Contact Instructor or Academic Department for permission then register through Webcat.

Equivalent(s): ECE 944, EE 944

Instructors: May-Win Thein

	Start Date	End Date	Days	Time	Location
	1/23/2024	5/6/2024	TR	11:10am - 12:30pm	KING N345
Final Exam	5/14/2024	5/14/2024	T	1:00pm - 3:00pm	KING N345

Durham Engineering&Physical Sciences :: Mechanical Engineering

ME 992 (01) - Master's Project

Master's Project

Credits: 4.0
Term: Spring 2024 - Full Term (01/23/2024 - 05/06/2024)
Grade Mode: Graduate Credit/Fail grading

Class Size: 15
CRN: 50890

The student works with a faculty member during one or two semesters on a well-defined research and/or original design problem. A written report and seminar are presented. IA (continuous grading).

Registration Approval Required. Contact Instructor or Academic Department for permission then register through Webcat.

Repeat Rule: May be repeated up to 1 times.

Instructors: STAFF

Start Date	End Date	Days	Time	Location
1/23/2024	5/6/2024		Hours Arranged	TBA

Durham Engineering&Physical Sciences :: Mechanical Engineering

ME 992 (02) - Master's Project

Master's Project

Credits: 4.0
Term: Spring 2024 - Full Term (01/23/2024 - 05/06/2024)
Grade Mode: Graduate Credit/Fail grading

Class Size: 5
CRN: 51694

The student works with a faculty member during one or two semesters on a well-defined research and/or original design problem. A written report and seminar are presented. IA (continuous grading).

Registration Approval Required. Contact Instructor or Academic Department for permission then register through Webcat.

Repeat Rule: May be repeated up to 1 times.

Instructors: STAFF

Start Date	End Date	Days	Time	Location
1/23/2024	5/6/2024		Hours Arranged	TBA

Durham Engineering&Physical Sciences :: Mechanical Engineering

ME 992 (03) - Master's Project

Master's Project

Credits: 4.0
Term: Spring 2024 - Full Term (01/23/2024 - 05/06/2024)
Grade Mode: Graduate Credit/Fail grading

Class Size: 5
CRN: 51695

The student works with a faculty member during one or two semesters on a well-defined research and/or original design problem. A written report and seminar are presented. IA (continuous grading).

Registration Approval Required. Contact Instructor or Academic Department for permission then register through Webcat.

Repeat Rule: May be repeated up to 1 times.

Instructors: John Roth

Start Date	End Date	Days	Time	Location
1/23/2024	5/6/2024		Hours Arranged	TBA

Durham Engineering&Physical Sciences :: Mechanical Engineering

ME 995 (01) - Graduate Special Topics

Grad Spec Top/Graduate Seminar

Credits: 1.0
Term: Spring 2024 - Full Term (01/23/2024 - 05/06/2024)
Grade Mode: Letter Grading

Class Size: 48
CRN: 51382

Investigations of graduate-level problems or topics in mechanical engineering.

Registration Approval Required. Contact Instructor or Academic Department for permission then register through Webcat.

Instructors: Gregory Chini

Start Date	End Date	Days	Time	Location
1/23/2024	5/6/2024	F	1:10pm - 2:00pm	KING N113

Durham Engineering&Physical Sciences :: Mechanical Engineering

ME 995 (04) - Graduate Special Topics

Graduate Special Topics

Credits: 3.0
Term: Spring 2024 - Full Term (01/23/2024 - 05/06/2024)
Grade Mode: Letter Grading

Class Size: 5
CRN: 51882

Investigations of graduate-level problems or topics in mechanical engineering.

Section Comments: This course will explore graduate-level topics in environmental fluid mechanics and ecohydraulics, including flow instability, turbulence, flow through aquatic ecosystems, and density-driven flows in the environment. Course will include group reading and discussion of papers, and a term project where students conduct experiments or implement simple models to study environmental flow phenomena, with application to their own research. Prerequisite: OE 7/853 (Ocean Hydrodynamics), ME 7/807 (Analytical Fluid Dynamics), or similar intermediate/graduate-level fluid mechanics course.

Registration Approval Required. Contact Instructor or Academic Department for permission then register through Webcat.

Cross listed with : OE 995.03

Instructors: Tracy Mandel

Start Date	End Date	Days	Time	Location
1/23/2024	5/6/2024	MW	1:10pm - 2:30pm	MORSE 161