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The wheel has a mass of 25 kg and a radius of gyration k B =0.15 m. It is originally spinning at ω=40 rad/s. If it is placed on the ... Speaker, institute & title 1) Sifan Wang, Yale University, When PINNs Go Wrong: Pseudo-Time Stepping Against Spurious ...
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Problem 17–75 | Time to Stop Wheel with Friction & Pin Reactions | Chapter 17 Dynamics
Problem 17–87 | Pin Reactions at A & Roller Reaction at B | Chapter 17 Dynamics
Problem 17–57 | Angular Velocity & Pin Reactions of Wheel | Chapter 17 Dynamics
Problem 17–60 | Initial Angular Acceleration & Reactions at A | Chapter 17 Dynamics
Problem 17–88 | Pin Reactions at A & Roller Reaction at B at θ = 0° | Chapter 17 Dynamics
Problem 17–59 | Reactive Force at Pin B When θ = 90° | Chapter 17 Dynamics
When PINNs Go Wrong || June 12, 2026
Problem 17–61 | Initial Angular Acceleration of Reel | Chapter 17 Dynamics
Problem 17–76 | Initial Angular Acceleration of Paper Roll with Friction | Chapter 17 Dynamics
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Last Updated: June 24, 2026
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