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Circular Motion Example Problem 3: a t = f(t) A bead moves along a circular wire. Its speed increases at a = 2t – 4 m/s 2. Its initial (at t = 0) position.

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Presentation on theme: "Circular Motion Example Problem 3: a t = f(t) A bead moves along a circular wire. Its speed increases at a = 2t – 4 m/s 2. Its initial (at t = 0) position."— Presentation transcript:

1 Circular Motion Example Problem 3: a t = f(t) A bead moves along a circular wire. Its speed increases at a = 2t – 4 m/s 2. Its initial (at t = 0) position and speed are s(0) = 0 m and v(0) = 3 m/s. At t = 5 sec, please determine: (a) The magnitude of the bead’s acceleration. (b) The position of the bead along the wire (give both arc length, s, and angle, . (c) The total distance traveled along the wire by the bead in the 0-5 sec time interval.

2 Circular Motion Ex Prob 3: at = f(t) (a total dist problem) A bead moves along a circular wire. Its speed increases at a = 2t – 4 m/s 2. Its initial (at t = 0) position and speed are s(0) = 0 m and v(0) = 3 m/s. At t = 5 sec, please determine… Solution: Step 1: Integrate the a t function: Step 2: Evaluate at t = 5 sec

3 Circular Motion Ex Prob 3: a t = f(t) (a total dist problem) A bead moves along a circular wire. Its speed increases at a = 2t – 4 m/s 2 …. Step 3: Further investigate the bead’s motion… Find roots of the velocity equation…. Step 4: Evaluate s(t) at 0, 1, 3, 5 sec v(t) = t 2 – 4t + 3 m/s v = 0 = ( t – 1 )( t – 3 ) v = 0 at t = 1, 3 seconds

4 Circ Motion Ex Prob 3: a t = f(t) (a total dist problem) Step 5: Plot the bead’s displacement along the wire…

5 Circ Motion Ex Prob 3: a t = f(t) (a total dist problem) Step 6: Bead’s position s (in meters) and  (in degrees) at t = 5 sec

6 Circ Motion Ex Prob 3: a t = f(t) (a total dist problem) Step 7: Acceleration magnitude at t = 5 sec

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