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... Angular Momentum of a Rigid Body in Three Dimensions Application of the Principle of Impulse and Momentum to the Three-Dimensional Motion of a Rigid Body 18.4 Kinetic Energy of a Rigid Body in Three Dimensions 18.5 Motion of a Rigid Body in Three Dimensions 18.6 Euler’s Equations of Motion. Extensio ...
... Angular Momentum of a Rigid Body in Three Dimensions Application of the Principle of Impulse and Momentum to the Three-Dimensional Motion of a Rigid Body 18.4 Kinetic Energy of a Rigid Body in Three Dimensions 18.5 Motion of a Rigid Body in Three Dimensions 18.6 Euler’s Equations of Motion. Extensio ...
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... Since the acceleration of a particle in uniform circular motion serves only to change the direction of the velocity but not the speed, the acceleration vector must always be at right angles to the velocity. The acceleration vector has no component in the direction of travel. The velocity vector is a ...
... Since the acceleration of a particle in uniform circular motion serves only to change the direction of the velocity but not the speed, the acceleration vector must always be at right angles to the velocity. The acceleration vector has no component in the direction of travel. The velocity vector is a ...
Phys101 Lectures 13, 14 Momentum and Collisions
... the total momentum of the system remains constant. Note 1: If one of the components of the net external force is zero, the corresponding component of the total momentum of the system is conserved (even though the total momentum vector may or may not be conserved). Note 2: For a one-object system, th ...
... the total momentum of the system remains constant. Note 1: If one of the components of the net external force is zero, the corresponding component of the total momentum of the system is conserved (even though the total momentum vector may or may not be conserved). Note 2: For a one-object system, th ...