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If you forget everything in this chapter, be proud that you at least remember this:. The Angular Momentum of any closed system is. always Constant , no ifs, ands, or buts. Rolling Objects (without slipping). Kinetic Energy of a moving object Kinetic Energy of a rotating object
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If you forget everything in this chapter, be proud that you at least remember this: • The Angular Momentum of any closed system is • always Constant, no ifs, ands, or buts.
Rolling Objects (without slipping) Kinetic Energy of a moving object Kinetic Energy of a rotating object Kinetic Energy of a rolling object (moving and rotating)
O. O. . P . P Friction on a Rolling Object F N Mg R ( Mg
N Mg sin R ( Mg
Torque about a Reference Point y F F ) r O x
Angular Momentum of a Particle y mv p = mv r O x r
Newton’s Second Law, with a twist System of Particles More about Angular Momentum L =
Angular Momentum of a rotating fixed body Conservation of Angular Momentum Even more about Angular Momentum Angular momentum of any closed system is always conserved
Angular Momentum must be conserved for this object rotating on a fixed axis Ifm=2.0 kg·m2 f=?? Iim=6.0 kg·m2 i=1.2 rev/s Ip=3.0 kg·m2
Looking at Kinetic Energy If=5.0 kg·m2 f=2.2 rev/s Ii=9.0 kg·m2 i=1.2 rev/s
y x z Collisions with Angular Momentum M ( v m
y x z Collisions with Angular Momentum f=??
y x z 2 O. M ( v r Angular Momentum is constant m
y x z 2 O.
y x z 2 O.