Ch13 Powerpoint
... that acts to move an object tangent to the direction in which it is moving at any instant, thus causing it to move in a circular path. Centrifugal force: an outward-pulling force equal in magnitude to centripetal force. Equation for both (equal & opposite forces): ...
... that acts to move an object tangent to the direction in which it is moving at any instant, thus causing it to move in a circular path. Centrifugal force: an outward-pulling force equal in magnitude to centripetal force. Equation for both (equal & opposite forces): ...
Document
... Wile E. Coyote accidentally runs off a cliff horizontally at 8.0 m/s. The cliff is 64 m high. How far from the base of the cliff should the road runner find him? ...
... Wile E. Coyote accidentally runs off a cliff horizontally at 8.0 m/s. The cliff is 64 m high. How far from the base of the cliff should the road runner find him? ...
Motions and Forces
... The following set of experiments will involve objects in "free fall" and "non free fall" motion. a) Get a steel ball 1 or 2 cm in diameter. Hold it. When you are holding the ball still what kind of motion does it have? Describe all the forces that are being applied to the object. Does the ball have ...
... The following set of experiments will involve objects in "free fall" and "non free fall" motion. a) Get a steel ball 1 or 2 cm in diameter. Hold it. When you are holding the ball still what kind of motion does it have? Describe all the forces that are being applied to the object. Does the ball have ...
Chapter 3 Kinetics of Particles
... Knowing that gravity acts vertically downward, determine the differential equation of motion for the bead in terms of the angle θ using (a) Newton’s 2nd law and (b) the work-energy theorem for a particle. In addition assuming the initial conditions θ(t = 0) = θ0 and θ̇(t = 0) = θ̇0 , determine (c) t ...
... Knowing that gravity acts vertically downward, determine the differential equation of motion for the bead in terms of the angle θ using (a) Newton’s 2nd law and (b) the work-energy theorem for a particle. In addition assuming the initial conditions θ(t = 0) = θ0 and θ̇(t = 0) = θ̇0 , determine (c) t ...
What is Centrifugal Force? - Sound and Vibration Magazine
... cracking on the stationary parts (see Figure 3). Is this damage caused solely by the centripetal force? If the correction was not applied, then there would be no centripetal force from a nonexistent correction weight. What is the force that caused the previous damage before the correction weight was ...
... cracking on the stationary parts (see Figure 3). Is this damage caused solely by the centripetal force? If the correction was not applied, then there would be no centripetal force from a nonexistent correction weight. What is the force that caused the previous damage before the correction weight was ...
