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Motion in One Dimension (Position vs. Time) Chapter 5.1.

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Presentation on theme: "Motion in One Dimension (Position vs. Time) Chapter 5.1."— Presentation transcript:

1 Motion in One Dimension (Position vs. Time) Chapter 5.1

2 Distance, Position and Displacement Distance: The total distance that an object has moved. Ex. You walk 3 meters north and then walk 3 meters south. What distance have you traveled? 6 meters

3 Distance, Position and Displacement Position: Where you are relative to a starting point. Ex.: You walk 3 meters north. Your position is 3 meters from your starting point.

4 Distance, Position and Displacement Displacement: A measure in distance relative to a starting point that includes direction. Ex.: You walk 3 meters north and then 3 meters south. What is your displacement? 0 meters. Ex.: Your walk 3 meters north and 4 meters east. What is your distance traveled? What is your displacement? Distance: 7 meters. Displacement: 5 meters.

5 Motion of Objects To describe the motion of an object, what other information will we need other than position, distance or displacement? Time If I have the object’s position and time, what can be determined about the object’s motion? Speed or Velocity

6 1. Collect Data

7 2. Choose appropriate axes and plot the data.

8 3. Draw a curve that provides a “best fit” to the points.

9 What information does the shape of the curve provide? Straight line = constant velocity. Changing curve = changing velocity(i.e. acceleration). Time Constant Velocity Position Time Changing Velocity Position

10 What information does the shape of the curve provide? Decreasing Velocity Increasing Velocity Negative Acceleration Positive Acceleration Time Position Time Position Time Position Time Position

11 Characterize the motion of the object from A to E. A.Constant velocity in the positive direction. B.Decreasing velocity. C.Stationary. D.Increasing velocity. E.Constant velocity in the positive direction. Time A B C D E Position

12 What information does the slope of the curve provide? Positively sloped curve = movement in the positive direction. Negatively sloped curve = movement in the negative direction. Time Positive Direction Position Time Negative Direction Position

13 What else does the slope tell us? What is the motion described by each curve? How does the velocity of each curve compare to one another? A is stationary B is moving at the same speed as C, but their starting position is different. D is moving slower than B or C. Time A C B D Position

14 Analyzing motion of more than one object. Two vehicles travel through a speed trap traveling at two different velocities.

15 Determining the slope of the curve. 1997 World Championships - Athens, Greece Maurice Green 0 10 20 30 40 50 60 70 80 90 100 0246810 Time (s) Distance (m) y = 1.13x + 4.08x - 0.05 R 2 = 1.00 2 y = 11.65x - 13.07 R = 1.00 2

16 Velocity determined from the slope of the curve. 1997 World Championships - Athens, Greece Maurice Green y = 11.65x - 13.07 R 2 = 1.00 30 40 50 60 70 80 90 100 45678910 Time (s) Distance (m) rise run d f – d i t f – t i 85m-50m 8.4s-5.4s m = 11.7m/s Since m = v: v = 11.7 m/s m = Slope = m =

17 Key Ideas Although space exists in 3 dimensions, analysis of objects in motion can be limited to one dimension to simplify problems. When graphing position vs. time, use the x-axis for time and the y-axis for position. By analyzing the shape of a position vs. time graph, the relative motion of the object can be determined, i.e. constant velocity, acceleration, stationary. The slope of the position vs. time graph provides the average velocity over the time interval.

18 What can be inferred from the following graph?


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