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Centripetal Acceleration and Force. Quandary The ball revolves on the end of a string. (in space - no gravity) What direction will the ball go if the.

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Presentation on theme: "Centripetal Acceleration and Force. Quandary The ball revolves on the end of a string. (in space - no gravity) What direction will the ball go if the."— Presentation transcript:

1 Centripetal Acceleration and Force

2 Quandary The ball revolves on the end of a string. (in space - no gravity) What direction will the ball go if the string disappears? A BC Demo

3 Quandary Consider an object going at a constant speed in a uniform circle. This object is undergoing centripetal acceleration. 1.How does it go in a circle? 2.Which way is the net force on the object? 3.Which way is the acceleration? rv Show direction with accelerometer

4 Linear acceleration. a =  v/  t = (18 m/s)/9 s = 2 m/s/s Speed changes Force and velocity are parallel (or anti) Centripetal Acceleration Direction changes (what does it look like?) Force and velocity are perpendicular rv a = v 2 /r (take my word) a = Centripetal acceleration v = tangential velocity r = radius of circle (show direction with lateral accelerometer) v For a v F

5 rv a = v 2 /r a = Centripetal acceleration v = tangential velocity r = radius of circle a Example - What is the centripetal acceleration of a 1200 kg car going 24 m/s around an 80. m radius corner? a = v 2 /r = (24 m/s) 2 / (80. m) = 7.2 m/s/s (units, lateral accel.) What centripetal force is needed? F = ma = (1200 kg)(7.2 m/s/s) = 8640 What is the minimum coefficient of static friction required? 8640 N = μ(1200 kg)(9.81 N/kg) μ =.73 mv 2 /r = μmg

6 Whiteboards: Centripetal Acceleration 11 | 2 | 3 | 4234 TOC

7 What is the centripetal acceleration if a tuna is going 6.2 m/s around a 2.3 m radius corner? a = v 2 /r = (6.2 m/s) 2 /(2.3 m) = 17 m/s/s 17 m/s/s W

8 A Volkswagen can do.650 “g”s of lateral acceleration. What is the minimum radius turn at 27.0 m/s? (3) a = v 2 /r 1g= 9.81 m/s/s a = (9.81 m/s/s)(.650) = 6.3765 m/s/s 6.3765 m/s/s = (27.0 m/s) 2 /r r = (27.0 m/s) 2 /(6.3765 m/s/s) = 114.326 m r = 114m 114m W

9 A carnival ride pulls an acceleration of 12 m/s/s. What speed in a 5.2 m radius circle? a = v 2 /r 12 m/s/s = v 2 /5.2 m v = 7.9 m/s 7.9m/s W

10 rv a = v 2 /r a = Centripetal acceleration v = tangential velocity r = radius of circle a One more formula: Circumference = 2  r Period = T (time for once around) v = dist./t = 2  r/T (for uniform circular motion) a = v 2 /r (show substitution on whiteboard) a = 4  2 r/T 2

11 rv Useful Formulas: a = v 2 /r a = 4  2 r/T 2 F = ma v = dist./t {v = 2  r/T} a = Centripetal acceleration v = tangential velocity r = radius of circle T = Period of motion a

12 A merry-go-round completes a revolution every 7.15 seconds. What is your centripetal acceleration if you are 3.52 m from the center of rotation? a = 4  2 r/T 2 a = 4  2 (3.52 m)/(7.15 s) 2 a = 2.72 m/s/s 2.72 m/s/s W

13 What should be the period of motion if you want 3.5 “g”s of centripetal acceleration 5.25 m from the center of rotation? a = 4  2 r/T 2 a = (3.5)(9.81 m/s/s) = 34.335 m/s/s 34.335 m/s/s = 4  2 (5.25 m)/T 2 T = 2.456919879 = 2.5 s 2.5 s W

14 Whiteboards: Centripetal Force 11 | 2 | 3 | 4234 TOC

15 What force is required to swing a 5.0kg object at 6.0m/s in a 75cm radius circle? F = ma, a=v 2 /r F = mv 2 /r F = (5.0 kg)(6.0 m/s) 2 /(.75 m) F = 240N 240N W

16 It takes 35 N of force to make a glob of Jello go in a 2.0 m radius circle with a period of 1.85 seconds What’s the mass? What’s its flavor? a = 4  2 r/T 2 F = ma a = 4  2 (2.0 m)/(.85 s) 2 a = 23.07 m/s/s F = ma, m = F/a = (35 N)/(23.07 m/s/s) = 1.5 kg Flavor= Red 1.5 kg W

17 If there is a reliable coefficient of friction of.75 between the average car tire and the road, what is the minimum radius a 1200 kg car can have at 31.3 m/s? Does the answer depend on the mass? F = ma, a=v 2 /r, F = mv 2 /r = μmg r = mv 2 /(μmg) = v 2 /(μg) = 133.155 m 130 m, little dogs

18 A ride makes a 60.kg small redheaded child go in a 4.1m radius circle with a force of 470 N. What period? F=ma a = 4  2 r/T 2 470 N = (60 kg)a a= 7.83m/s/s 7.83m/s/s = 4  2 (4.1)/T 2 T = 4.5 s 4.5 s W

19 Ice skates can give 420 N of turning force. What is r min for a 50.kg skater @10.m/s? F=ma, a=v 2 /r F=mv 2 /r 420 N = (50 kg)(10.m/s) 2 /r r = (50 kg)(10.m/s) 2 /(420 N) r = 11.9m 11.9m W

20 Useful Formulas: a = v 2 /r a = 4  2 r/T 2 F = ma v = s/t {v = 2  r/T} a = Centripetal acceleration v = tangential velocity r = radius of circle T = Period of motion What is the acceleration of a point 32 cm out on a grinding wheel spinning at 1200 RPM? RPM = Revolutions/Minute 60 s = 1 minute T = (60 s)/(1200 rev) =.050 s Use a = 4  2 r/T 2 RPS = Revolutions/second Example - 35 rev/sec, 5.2 cm from axis T = (1 s)/(35 rev) = 0.02857 s Use a = 4  2 r/T 2

21 The “F” word: Centrifugal force - the sensation that you are being flung outward. Car acceleration forward - flung back Car accel centripetally - flung outside Sunglasses going out the window Fenders on bikes

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