01:17:12

Why Don't Bicycles Fall Down - Andy Ruina

20:01

Y11 - Martyn’s Kneed 2-Legged Walker, Unsuccessful Trials #2

14:37

Testing Passive Dynamic Walker at Cornell - Summer 95: Y5 3

15:03

Testing Passive Dynamic Walker at Cornell - Summer 95: Y5 2

47:10

Laws of Mechanics, Circular Motion, Cornell TAM 2030, Dynamics Lec 14

50:32

Collision Mechanics, Cornell TAM 2030, Dynamics Lec 21

48:31

Rolling, Collisions, Cornell TAM 2030, Dynamics Lec 20,

47:18

Relative Motion, Cornell TAM 2030, Dynamics Lec 23

46:03

Rolling Kinematics, Rolling Friction, Cornell TAM 2030, Dynamics Lec 19

52:45

Particle Motion Relative to a Frame, Bicycle Dynamics, Cornell TAM 2030, Dynamics Lec 25

48:08

Dynamics Demos, Bicycle Dynamics, Cornell TAM 2030, Dynamics Lec 26

49:28

Pendulum with Moving Support (Shaken Inverted Pendulum), Cornell TAM 2030, Dynamics Lec 27

44:36

Relative Motion (cont.), Cornell TAM 2030, Dynamics Lec 24

45:07

Collisions, Particles in Space, Matlab, Cornell TAM 2030, Dynamics Lec 11

48:55

Rotation of a Rigid Object with Animation and ode45 (matlab), Cornell TAM 2030, Dynamics Lec 16

48:01

MATLAB and ODEs, Harmonic Oscillator, Cornell TAM 2030, Dynamics Lec 4

44:09

Motion of a 2D rigid object, pendulum, Cornell TAM 2030, Dynamics Lec 18,

48:35

Polar Coordinates, Path Coordinates, Cornell TAM 2030, Dynamics Lec 22

47:03

2 Degree of Freedom (DoF) Systems, Collisions, Cornell TAM 2030, Dynamics Lec 8

48:54

Constrained 1D motion with 2D and 3D forces, pulleys,Cornell TAM 2030, Dynamics Lec 13

47:54

1D, Multi Degrees of Freedom (DoF) systems, Cornell TAM 2030, Dynamics Lec 6

48:26

Particle/ Particles in Space, Cornell TAM 2030, Dynamics Lec 10

43:32

Angular Velocity and Angular Momentum of a Rigid Object, Cornell TAM 2030, Dynamics Lec 17

49:35

multi (2) DoF systems with Kinematic Constraints, Double Pendulum, Cornell TAM 2030, Dynamics Lec 28

47:25

2D Particles in Space, matlab, pulleys, Cornell TAM 2030, Dynamics Lec 12

49:14

Mechanics Review, Circular Motion, Cornell TAM 2030, Dynamics Lec 15

47:34

Spatial Dynamics of a Particle, Cornell TAM 2030, Dynamics Lec 9,

49:04

1D Mechanics - Cornell, TAM 2030, Dynamics

48:07

1 DoF Oscillator, Forcing and Damping, Cornell TAM 2030, Dynamics Lec 5

47:47

2 Degree of Freedom (DoF) systems, matlab, collisions, Cornell TAM 2030, Dynamics Lec 7,

47:40

1D Mechanics, Numerical Integration of ODEs (MATLAB), SHM. Cornell TAM 2030 Dynamics Lec 3.

47:45

1D Mechanics; Balls, Cones, and Friction, Cornell TAM 2030, Dynamics Lec 2

14:03

Rowing Competition Penn Vs. Cornell, Better Engr. - Dec 1991

14:27

Triple Pendulum 4/1995

00:56

Robust Rower – 7/12/02: Example of the rowing machine in motion

00:41

Dropping Pencil with Weights

41:03

Rowing Discussion

00:56

Constrained Pedaling (6)

01:20

Bicycle and Wheel Stability Demo - Master

09:51

Rowing Research

28:23

Moonbuggy 2002 - Cornell Team

05:49

Constrained Pedaling (5)

03:00

Avalanche (Chatterjee/Ruina) 1999

09:51

Robust Rowing – 6/27/02

02:02

Don Trollope’s Gyro-Bicycle December 1998

00:12

Rolling Wheel (2)

00:37

Bicycle Stability Model; 3D Rimless Wheel

11:17

Rowing Erg – Andy Wolff

00:19

Rolling Wheel

05:14

Constrained Pedaling

20:57

Biking and Rowing

40:45

HP Lab Master: Rowing Ergometer

02:04

Constrained Pedaling (3)

01:14

Constrained Pedaling (2)

03:42

Constrained Pedaling (4)

07:08

Bicycle and Wheel Stability (Raw Footage—Best Quality)

02:16

Modified Rowing Ergometer

00:48

Dropping Pencil

59:04

Rowing - Balancing in Tanks (2)

14:15

Rowing - Balancing in Tanks