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Circular Motion Chapter 9 in the Textbook Chapter 6 is PSE pg. 81.

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Presentation on theme: "Circular Motion Chapter 9 in the Textbook Chapter 6 is PSE pg. 81."— Presentation transcript:

1 Circular Motion Chapter 9 in the Textbook Chapter 6 is PSE pg. 81

2 Revolve: is to move around an EXTERNAL axis Rotate: is to move around an INTERNAL axis So the moon _________ around the earth The earth _________ once a day The earth _________ once a year ROTATES REVOLVES

3 The PERIOD (T) of an object is the time it takes the mass to make a complete revolution or rotation. UNITS: T in seconds f in Hz (s -1 ) The FREQUENCY (f) of an object is the number of turns per second T = 1 f Period and frequency are reciprocals

4 A spring makes 12 vibrations in 40 s. Find the period and frequency of the vibration. f = vibrations/time = 12vib/40s = 0.30 Hz T = 1/f = 1/(0.3Hz) = 3.33 s

5 The period T is the time for one complete revolution. So the linear speed or tangential speed can be found by dividing the period into the circumference: Units: m/s v = 2π r f

6 A 2 kg body is tied to the end of a cord and whirled in a horizontal circle of radius 2 m. If the body makes three complete revolutions every second, determine its period and linear speed m = 2 kg r = 2 m f = 3 rev/s = 0.33 s = 37.70 m/s

7 UNIFORM CIRCULAR MOTION Uniform circular motion is motion in which there is no change in speed, only a change in direction.

8 CENTRIPETAL ACCELERATION An object experiencing uniform circular motion is continually accelerating. The direction and velocity of a particle moving in a circular path of radius r are shown at two instants in the figure. The vectors are the same size because the velocity is constant but the changing direction means acceleration is occurring.

9 To calculate the centripetal acceleration, we will use the linear velocity and the radius of the circle Or substituting for v We get acac Or a c = 4 π 2 r f 2

10 A ball is whirled at the end of a string in a horizontal circle 60 cm in radius at the rate of 1 revolution every 2 s. Find the ball's centripetal acceleration. = 5.92 m/s 2

11 CENTRIPETAL FORCE The inward force necessary to maintain uniform circular motion is defined as centripetal force. From Newton's Second Law, the centripetal force is given by: F c = ma c Or F c = m F c = m 4 π 2 r f 2

12 A 1000-kg car rounds a turn of radius 30 m at a velocity of 9 m/s a. How much centripetal force is required? b. Where does this force come from? Force of friction between tires and road. m = 1000 kg r = 30 m v = 9 m/s = 2700 N

13 Please complete PSE Practice Problems # 1-12 Due EOC next class

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