Hi Harry,As far as I am aware the only thing you need on conservation of angular momentum is in this video, in so much that angular momentum is a constant (and is equal to angular velocity x moment of inertia) so in order to conserve angular momentum and keep it constant if either moment of inertia or angular velocity changes the other must do the opposite. In other words if a figure skaters moment of inertia decreases as they took their body in their angular velocity will increase (spin faster) in order to conserve angular momentum and keep it constant.
really helpful video thank you so much
James, are you going to cover the Conservation of Angular Momentum
Hi Harry,As far as I am aware the only thing you need on conservation of angular momentum is in this video, in so much that angular momentum is a constant (and is equal to angular velocity x moment of inertia) so in order to conserve angular momentum and keep it constant if either moment of inertia or angular velocity changes the other must do the opposite. In other words if a figure skaters moment of inertia decreases as they took their body in their angular velocity will increase (spin faster) in order to conserve angular momentum and keep it constant.
+James Morris Thank You, that helps
Bro great video, but low key you sound like shrek
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