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C H A P T E R 5 Dynamics of Uniform Circular Motion

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1 C H A P T E R 5 Dynamics of Uniform Circular Motion
Uniform circular motion is the motion of an object traveling at a constant (uniform) speed on a circular path. Q. Do we need a force to keep an object on this circular path? A. Yes. Centripetal Force The tension in the guideline is the centripetal force, which pulls the plane inward.

2 Centripetal Force The centripetal force is the net force required to keep an object of mass m, moving at a speed v, on a circular path of radius r, and it has a magnitude of Direction: The centripetal force always points toward the center of the circle and continually changes direction as the object moves. Centripetal acceleration is:

3 Period and Speed The period T is the time required to travel once around the circle—that is, to make one complete revolution. The speed v is the distance traveled (circumference of the circle = 2pr) divided by the time T:

4 Car on a Flat-Curve Question: What is the centripetal force for a car moving along a cul-de-sac? Answer: Static frictional force between the road and the tires. Example 7: At what maximum speed can a car safely negotiate a horizontal unbanked turn (radius = 51 m) in dry weather (coefficient of static friction = 0.95)?

5 Question: Why do airplanes make banked turn?
Answer: To generate the centripetal force required for the circular motion.

6 Problem 29 A jet flying at 123 m/s banks to make a horizontal circular turn. The radius of the turn is 3810 m, and the mass of the jet is 2.00 x 10^5 kg. Calculate the magnitude of the necessary lifting force.

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