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Vertical Circles and Curves. Rounding A Curve Friction between the tires and the road provides the centripetal force needed to keep a car in the curve.

Published byTiffany Wilkinson Modified over 8 years ago

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Presentation on theme: "Vertical Circles and Curves. Rounding A Curve Friction between the tires and the road provides the centripetal force needed to keep a car in the curve."— Presentation transcript:

1 Vertical Circles and Curves

2 Rounding A Curve Friction between the tires and the road provides the centripetal force needed to keep a car in the curve

3 Example A 1000 kg car rounds a curve on a flat road of radius 50 m at a speed of 14 m/s. A) will the car make the turn on a dry day when the μ is.60? B) What about on a day when the road is icy and the μ is.25?

4 Vertical Circle Weight is acting in the same plane as centripetal force

5 Example A.150kg ball on the end of a 1.10 m long cord is swung in a vertical circle a) determine the minimum speed the ball must have at the top of its arc so that it continues moving in a circle b) calculate the tension of the cord at the bottom of the swing if it is moving 2x the speed calculated in part a.

6 Solution At top of swing centripetal force is a combination of mg and F T F r = F T + mg - when just keeping it in a circle, we can assume that the F T = 0 and the centripetal force is supplied only by gravity

7 At bottom, F r = F T - mg

8 Example On a roller coaster, a 250kg car moves around a vertical loop of radius 15m with a speed of 13 m/s at the top of the loop and 22 m/s at the bottom of the loop. What weight will he feel at the top and the bottom?

9

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