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Plan for Today (AP Physics I) Notes/Lecture on Rotational Motion.

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Presentation on theme: "Plan for Today (AP Physics I) Notes/Lecture on Rotational Motion."— Presentation transcript:

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3 Plan for Today (AP Physics I) Notes/Lecture on Rotational Motion

4 Question 1 Describe the motion of a ball spun on a string in terms of displacement, distance, velocity, speed, and acceleration Speed – constant, not changing – What about velocity Displacement – from linear view always returns to zero – So how can we calculate this? Acceleration – constant speed so no acceleration? – But v is always changing so how do we have this? – Because rotation is so different, we need to look at a different way of measuring 2 types of acceleration – Linear AND rotational

5 Question 2 Describes what happens when I let the ball go at points A and B What does the string provide? A force to cause the rotation/acceleration Motion is linear without the string

6 Question 3 Describe the similarities and differences in the motion of the two dots on the record As they spin, are linear displacement and velocity the same? No How do we set up a coordinate system so the dots have the same motion?

7 Question 4 (Calculation) A wheel starts from rest and turns through 56 radians at an angular acceleration of 3.5 rad/s^2. What is – The time required – The final angular velocity in rad/sec

8 Answers T = 5.7 seconds Wf = 19.8 rad/s

9 Rotational Motion Zero-point is the positive x axis Positive is counterclockwise (same as math)

10 Displacement = radians or revolutions or degrees Conversions 2 pi rad = 360 degrees = 1 revolution In this class, I want your answer to NOT have pi in it (give me a rounded number) Look at the units to solve (whether you are in radians vs degrees vs revolutions)

11 What is one radian? Diagram What is it? S = r * O O = s/r 1 = 1 S = r at O = 1 radian

12 How do we convert radial to linear? We have this occur, right? Record spinning then sliding across floor So we need a way to look at linear vs. angular

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