(∂V´/∂r). - TTU Physics
... Angular part of kinetic energy of mass m. • Because of the form [2 (2mr2)], this contribution to the energy depends only on r: When analyzing the r part of the motion, can treat this as an additional part of the potential energy. It’s often convenient to call it another potential energy term ...
... Angular part of kinetic energy of mass m. • Because of the form [2 (2mr2)], this contribution to the energy depends only on r: When analyzing the r part of the motion, can treat this as an additional part of the potential energy. It’s often convenient to call it another potential energy term ...
Lecture # 20
... • A tension force, or an applied force, (when the model car is pushed by hand or a magnet to illustrate that forces do not require physical contact) can overcome inertia. This results in unbalanced forces that cause the model car to move. • As the model moves, it experiences friction. The better the ...
... • A tension force, or an applied force, (when the model car is pushed by hand or a magnet to illustrate that forces do not require physical contact) can overcome inertia. This results in unbalanced forces that cause the model car to move. • As the model moves, it experiences friction. The better the ...
Circular Motion
... accelerating. The acceleration due to its change in direction is called centripetal acceleration. For uniform circular motion, the acceleration vector has a constant magnitude and always points toward the center of the circle. ...
... accelerating. The acceleration due to its change in direction is called centripetal acceleration. For uniform circular motion, the acceleration vector has a constant magnitude and always points toward the center of the circle. ...
