- ME 3351 Manufacturing Processes
- ME 3351 Manufacturing Processes
- ME 3351 Manufacturing Processes
- ME 3371 Summer II
- ME 340 Final Project
- ME 340: Heat Transfer Project “The H Calculator”
- ME 340 Project – David Christensen and Vance Murray – March 31, 2010
- ME 350 – Lecture 21 – Chapter 26
- ME 350 – Ch 6, 7 – Metals & Ceramics
- ME 350 – Ch 6, 7 – Metals & Ceramics
- ME 350 Design for Manufacturability Adjunct Professor: Bruce Flachsbart,
- ME 350 Design for Manufacturability Instructor: Bruce Flachsbart, email: mems@illinois.edu office hours: M
- ME 350 Design for Manufacturability Instructor: Bruce Flachsbart, email: mems@illinois.edu office hours: M
- ME 350 Design for Manufacturability Instructor: Dr. Keng Hsu, email: khsu5@illi
- ME 350 – Lecture 10 – Chapter 13
- ME 350 – Lecture 10 – Chapter 6
- ME 350 – Lecture 11 – Ch 8
- ME 350 – Lecture 11 – Chapter 13
- ME 350 – Lecture 12
- ME 350 – Lecture 12 – Chapter 11
- ME 350 – Lecture 13 – Chapter 9
- ME 350 – Lecture 14 – DFA Part 2
- ME 350 – Lecture 14 – DOE Part 1
- ME 350 – Lecture 15 – Chapter 32
- ME 350 – Lecture 15 – DOE Part 2
- ME 350 – Lecture 16 – Chapter 32
- ME 350 – Lecture 17 – Chapter 19
- ME 350 – Lecture 17 – DFA p art 1
- ME 350 – Lecture 18 – Chapter 20
- ME 350 – Lecture 18 – Chapter 20
- ME 350 – Lecture 18 – Chapter 20
- ME 350 – Lecture 18 – DFA Part 2
- ME 350 – Lecture 2 – Chapter 3
- ME 350 – Lecture 20 – Chapter 18
- ME 350 – Lecture 20 – Chapter 18
- ME 350 – Lecture 20 – Chapter 18
- ME 350 – Lecture 20 – Chapter 18
- ME 350 – Lecture 21 – Chapter 19
- ME 350 – Lecture 21 – Chapter 26
- ME 350 – Lecture 21 – Feature Based Costing (FBC)
- ME 350 – Lecture 21 – Feature Based Costing (FBC)
- ME 350 – Lecture 22 – Chapter 20
- ME 350 – Lecture 22 – Chapter 26
- ME 350 – Lecture 23 – Chapter 16
- ME 350 – Lecture 2A
- ME 350 – Lecture 3 – Ch 33
- ME 350 – Lecture 3 – Ch 33
- ME 350 – Lecture 3 – Chapter 21
- ME 350 – Lecture 4 – Chapter 22
- ME 350 – Lecture 5 – Chapter 22
- ME 350 – Lecture 5 – Chapter 22
- ME 350 – Lecture 5 – Chapter 22 & 23
- ME 350 – Lecture 5 – Chapter 22 & 23
- ME 350 – Lecture 5 – Chapters 23 & 24
- ME 350 – Lecture 6 – Chapter 10
- ME 350 – Lecture 6 – Chapter 10
- ME 350 – Lecture 6 – Chapter 23
- ME 350 – Lecture 6B
- ME 350 – Lecture 7 – Chapter 24
- ME 350 – Lecture 7 – Chapter 24
- ME 350 – Lecture 8 – Chapter 10
- ME 350 – Lecture 8 – Chapters 4 & 6
- ME 350 – Lecture 9 – Ch 8
- ME 350 – Lecture 9 – Ch 8
- ME 350 – Lecture 9 – Chapter 10
- ME 350 – Lecture 9 – Chapter 11
- ME 350 – Lecture 9 – Chapter 11
- ME 350 – Lecture 9 – Chapter 11
- ME 3507: Theory of Machines Degrees of freedom
- ME 358 Mechanism Analysis Straight Line Mechanism
- ME 363 Manufacturing Technology
- ME 363: Mechanics of Machines
- ME 363: Mechanics of Machines
- ME 365 Manufacturing Techniques
- ME 37 Manufacturing Processes
- ME 370
- ME 380
- ME 381 Term Project: Dynamic Wettability Switching by Surface Roughness Effect
- ME 381 Term Project: Dynamic Wettability Switching by Surface Roughness Effect
- ME 381R Fall 2003 Micro-Nano Scale Thermal-Fluid Science and Technology Lecture 11: Thermal Property Measurement Techniq
- ME 381R Fall 2003 Micro-Nano Scale Thermal-Fluid Science and Technology Lecture 12: Semiconductors
- ME 381R Fall 2003 Micro-Nano Scale Thermal-Fluid Science and Technology Lecture 14: Electro-Thermal Simulation of Semico
- ME 381R Fall 2003 Micro-Nano Scale Thermal-Fluid Science and Technology Lecture 15: Introduction to Thermoelectric Energ
- ME 381R Fall 2003 Micro-Nano Scale Thermal-Fluid Science and Technology Lecture 18: Introduction to MEMS
- ME 381R Fall 2003 Micro-Nano Scale Thermal-Fluid Science and Technology Lecture 3: Microstructure of Solids
- ME 381R Fall 2003 Micro-Nano Scale Thermal-Fluid Science and Technology Lecture 4: Crystal Vibration and Phonon
- ME 381R Fall Lecture 24: Micro-Nano Scale Thermal-Fluid Measurement Techniques
- ME 381R Lecture 10: Thermal Measurement Techniques for Thin Films and Nanostructured Materials
- ME 381R Lecture 11 & 12: Free Electron Gas, Electronic Specific Heat & Thermal Conductivity
- ME 381R Lecture 13-14 Semiconductor Devices and Thermal Issues
- ME 381R Lecture 2 Particle Transport Theory in Thermal Fluid Systems: Level 1—Kinetic Theory
- ME 381R Lecture 20: Nanostructured Thermoelectric Materials
- ME 381R Lecture 21 Introduction to Microfluidic Devices
- ME 381R Lecture 7: Phonon Scattering & Thermal Conductivity
- ME 381R Lecture 7: Phonon Scattering Thermal Conductivity
- ME 381R Lecture 7: Phonon Scattering & Thermal Conductivity
- ME 381R Lecture 8 & 9: Boltzmann Transport Equation & Thermal Conductivity Model
- ME 383 Modern Manufacturing Practices
- ME 383 Modern Manufacturing Practices
- ME 388 – Applied Instrumentation Lab Spring 2012
- ME 388 – Applied Instrumentation Laboratory Centrifugal Pump Lab
- ME 388 – Applied Instrumentation Laboratory Design of Experiments (DOE)
- ME 388 – Applied Instrumentation Laboratory Temperature Measurement Lab