1. People
1.1. Team Projects
1.1.1. MITES '07
1.1.2. DME 2008
1.1.3. 2.372
1.1.4. 2.75
1.1.5. 2.72
1.1.6. 2.009
1.1.7. 2.008
1.1.8. Next House Party
1.2. Student Groups
1.3. Mentorship
2. Design
2.1. Idea generation
2.1.1. Flexures
2.1.2. Master's Thesis
2.1.3. 2.72: Elements of Mechanical Design
2.2. Design Process
2.2.1. 2.009
2.2.2. 2.75
2.2.3. 2.007
2.2.4. 2.72: Elements of Mechanical Design
2.3. Product Design
2.4. Machine Design
2.4.1. 2.72: Elements of Mechanical Design
2.5. Design Communication
2.5.1. Sketches
2.5.2. Part Drawings
2.5.2.1. 2.72: Elements of Mechanical Design
2.5.3. Design Notebook
3. Modeling
3.1. FEA
3.1.1. PhD Thesis
3.1.2. Flexures
3.2. Math
3.2.1. Analytical
3.2.1.1. 18.01/2A: Calculus I/II
3.2.1.2. 18.03: Differential Equations
3.2.1.3. 18.353: Nonlinear Dynamics I
3.2.1.4. 18.354: Nonlinear Dynamics II
3.2.1.5. 18.440: Probability and Random Variables
3.2.1.6. A quick note on sensitivity analysis
3.2.2. Numerical
3.2.2.1. 18.06: Linear Algebra
3.2.2.2. 6.094: Intro to MATLAB
3.2.2.3. 18.303: Linear PDEs
3.2.2.4. 2.093: Finite Element Analysis
3.2.2.5. 2.72
3.3. Physics
3.3.1. Mechanics
3.3.1.1. Rigid Body Dynamics
3.3.1.1.1. 8.01: Physics I
3.3.1.1.2. 2.003: Dynamics and Control I
3.3.1.2. Flexible Body Dynamics
3.3.1.2.1. 2.001: Mechanics and Materials I
3.3.1.2.2. 2.002: Mechanics and Materials II
3.3.1.2.3. 2.080: Structural Mechanics
3.3.1.2.4. 2.081: Plates and Shells
3.3.1.2.5. 2.060: Structural Dynamics
3.3.1.3. Fluids
3.3.1.3.1. 2.006: Heat Transfer and Fluid Mechanics II
3.3.1.4. Heat and Mass Transfer
3.3.1.4.1. 2.005: Heat Transfer and Fluid Mechanics I
3.3.2. Electromagnetism
3.3.2.1. 8.02: Physics II
3.3.2.2. 6.S084: Electricity and Magnetism
3.3.2.3. 6.690: Intro to Electric Power Systems
3.3.3. Quantum
3.3.3.1. Quantum Mechanics
3.3.3.2. Quantum Field Theory
4. Manufacturing
4.1. By Machine
4.1.1. Laser Cutter
4.1.1.1. Laser Cutter
4.1.1.2. 2.008: Design and Manufacturing II
4.1.1.3. 2.72: Elements of Mechanical Design
4.1.2. 3D Printer
4.1.3. Mill
4.1.3.1. Manual
4.1.3.1.1. Edgerton Shop Training
4.1.3.1.2. 2.670: Intro to Machine Tools
4.1.3.2. CNC
4.1.3.2.1. 5-Axis
4.1.4. Lathe
4.1.4.1. Edgerton Shop Training
4.1.4.2. 2.670: Intro to Machine Tools
4.1.4.3. 2.72: Elements of Mechanical Design
4.1.5. Waterjet
4.1.5.1. Waterjet
4.1.5.2. 2.009
4.1.5.3. 2.72: Elements of Mechanical Design
4.1.6. CNC Router
4.1.7. MEMS Fab
4.1.7.1. 2.372
4.2. Material
4.2.1. Metal
4.2.1.1. 2.72: Elements of Mechanical Design
4.2.1.2. Keychains/Dog-Tags
4.2.2. Wood
4.2.2.1. Jenga Pistol
4.2.2.2. Making an Electric guitar
4.2.2.3. Sandy's Yarn Box
4.2.2.4. Woodworking
4.2.2.5. Next House Party Lighting System (NHPLS)
4.2.3. Plastic
4.2.3.1. 2.008: Design and Manufacturing II
4.2.4. Electronics
4.2.4.1. Altoids Mouse
4.2.4.2. MintyBoost
4.2.4.3. EL Wire
4.2.4.4. 2.737
4.3. Number of Parts
4.3.1. One part
4.3.2. Assemblies
4.3.2.1. 2.72: Elements of Mechanical Design
4.4. Number of Products
4.4.1. One Product
4.4.1.1. 2.009: Product Engineering Processes
4.4.1.2. Sandy's Yarn Box
4.4.1.3. DME Prize
4.4.1.4. Name Plate
4.4.1.5. Making an Electric Guitar
4.4.1.6. Jenga Pistol
4.4.1.7. 2.72: Elements of Mechanical Design
4.4.2. Multiple Products
4.4.2.1. Next House Party Lighting System (NHPLS)
4.4.2.2. 2.008: Design and Manufacturing II
5. Experimentation
5.1. Experimental Design
5.1.1. A quick note on sensitivity analysis
5.2. Error Analysis
5.3. Experiments
5.3.1. 2.131
5.3.2. Bachelor's Thesis
5.3.3. 2.72
6. Controls
6.1. Time domain
6.1.1. 2.004
6.2. Frequency domain
6.2.1. 2.140
6.3. Digital
6.3.1. 2.737