| 1 |
Introduction |
Problem set 1 out |
| 2 |
Curvilinear Motion
Cartesian Coordinates |
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| 3 |
Equations of Motion in Cartesian Coordinates (2DOF Aircraft Model) |
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| 4 |
Intrinsic Coordinates |
Problem set 1 in
Problem set 2 out |
| 5 |
Other Coordinate Systems |
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| 6 |
Equations of Motion: Application Examples |
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| 7 |
Work and Energy |
Problem set 2 in
Problem set 3 out |
| 8 |
Conservative Forces
Potential Energy |
Lab 1 in |
| 9 |
Linear Impulse and Momentum |
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| 10 |
Angular Impulse and Momentum |
Problem set 3 in
Problem set 4 out |
| 11 |
Relative Motion Translating Axes |
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| 12 |
Relative Motion Rotating/Translating Axes |
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| 13 |
Newton's Second Law for Non-Inertial Observers
Inertial Forces |
Problem set 4 in
Problem set 5 out |
| 14 |
Accelerometers
Newtonian Relativity |
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| 15 |
Gravitational Attraction
The Earth as a Non-Inertial Reference Frame |
Problem set 5 in
Problem set 6 out |
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Review |
Lab 2 in |
| 16 |
2D Rigid Body Kinematics |
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| 17 |
Conservation Laws for Systems of Particles |
Problem set 6 in |
| 18 |
2D Rigid Body Dynamics: Equations of Motion |
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| 19 |
2D Rigid Body Dynamics: Work and Energy |
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Review |
Problem set 7 out |
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Quiz 1 |
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| 20 |
2D Rigid Body Dynamics: Impulse and Momentum |
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| 21 |
Pendulums |
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| 22 |
3D Rigid Body Kinematics |
Problem set 7 in
Problem set 8 out |
| 23 |
3D Rigid Body Dynamics: Inertia Tensor |
Lab 3 in |
| 24 |
3D Rigid Body Dynamics: Equations of Motion |
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Review |
Problem set 8 in
Problem set 9 out |
| 25 |
Gyroscopic Motion |
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| 26 |
Torque-Free Motion
Spin Stabilization |
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Review |
Problem set 10 out |
| 27 |
Variable Mass Systems: The Rocket Equation |
Problem set 9 in |
| 28 |
Central Force Motion
Keppler's Laws |
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| 29 |
Orbits |
Problem set 10 in
Problem set 11 out |
| 30 |
Orbit Transfer |
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| 31 |
Vibration
Spring Mass Systems |
Problem set 11 in |
| 32 |
Forced Vibration
Isolation |
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| 33 |
Coupled Oscillators
Normal Modes |
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| 34 |
Introduction to Wave Propagation |
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Quiz 2 |
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