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Lecture 5: Motion in One Dimension With Changing Velocity

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1 Lecture 5: Motion in One Dimension With Changing Velocity
Physics 31 Lecture 5: Motion in One Dimension With Changing Velocity

2 v(t) from x(t)

3 v(t) is slope of x(t)

4 x(t) from v(t) v(t) t tend What does x(t) look like?

5 v(t) = constant=10m/s 1. How far would the object travel in one second
v(t) = constant=10m/s 1. How far would the object travel in one second? 2. How far in two seconds?

6 Slope is v = constant x(t) t

7 Acceleration Acceleration is: The rate of change of velocity
The slope of a velocity- versus-time graph Slide 2-20

8 Checking Understanding
These four motion diagrams show the motion of a particle along the x-axis. Rank these motion diagrams by the magnitude of the acceleration. There may be ties. Answer: A, B, C, D are the same magnitude acceleration. Slide 2-21

9 Checking Understanding
These four motion diagrams show the motion of a particle along the x-axis. Which motion diagrams correspond to a positive acceleration? Which motion diagrams correspond to a negative acceleration? Answer: Positive: A, C; negative: B, D Slide 2-22

10 Checking Understanding
These six motion diagrams show the motion of a particle along the x-axis. Rank the accelerations corresponding to these motion diagrams, from most positive to most negative. There may be ties. Answer: A & D, E & F, B & C Slide 2-23

11 Acceleration—Rate of Change of Velocity

12 v(t) from a(t)

13 x(t) from v(t) x(t) is the area under the v(t) vs t curve
For constant a

14 In general, for constant acceleration

15 Quiz, question 1 Here is a motion diagram of a car moving along a straight stretch of road: Which of the following velocity-versus-time graphs matches this motion diagram? Answer: C A. B. C. D. Slide 2-13

16 Question 2 A graph of position versus time for a basketball player moving down the court appears like so: Which of the following velocity graphs matches the above position graph? Answer: C A. B. C. D. Slide 2-15

17 Question 3 A car is moving with a constant velocity in the positive x-direction along a straight road. The magnitude of the velocity is v=12 m/s. Ten seconds later, it crashes into a wall and stops very suddenly. A) sketch v(t) versus t for the first 15 seconds. B) sketch x(t) versus t for the first 15 seconds.

18 Homework due Monday Reading 2: 3-4 Motion with constant acceleration
Problems: 2: CQ1, CQ6, MC18, 1, 3, 5, 8, 12

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