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Position-Time and Velocity-Time Graphs
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Questions for Consideration
What is a position-time graph? What is a velocity-time graph? How do features on one graph translate into features on the other?
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Distance-Time Graphs Show an object’s position as a function of time.
x-axis: time y-axis: distance
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Distance-Time Graphs 0 s 1 s 2 s 3 s 4 s 5 s 6 s 7 s 8 s 9 s 10 s
Imagine a ball rolling along a table, illuminated by a strobe light every second. You can plot the ball’s position as a function of time. 0 s 1 s 2 s 3 s 4 s 5 s 6 s 7 s 8 s 9 s 10 s
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Distance-Time Graphs 1 2 3 4 5 6 7 8 9 10 Distance(cm) time (s)
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Distance-Time Graphs What are the characteristics of this graph?
Straight line, upward slope What kind of motion created this graph? Constant speed 1 2 3 4 5 6 7 8 9 10 time (s) position (cm)
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Distance-Time Graphs Each type of motion has a characteristic shape on a D-T graph. Constant speed Zero speed (at rest) Accelerating (speeding up) Decelerating (slowing down)
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Distance-Time Graphs Constant speed is represented by a straight segment on the D-T graph. time (s) pos. (m) Constant speed in positive direction. time (s) pos. (m) Constant speed in negative direction.
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Distance-Time Graphs Constant speed is represented by a straight segment on the D-T graph. time (s) pos. (m) A horizontal segment means the object is at rest.
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Distance-Time Graphs Curved segments on the D-T graph mean the object’s speed is changing. time (s) pos. (m) Speeding up in positive direction. time (s) pos. (m) Speeding up in negative direction.
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Distance-Time Graphs Curved segments on the D-T graph mean the object’s speed is changing. time (s) pos. (m) Traveling in positive direction, but slowing down. time (s) pos. (m) Traveling in negative direction, but slowing down.
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Distance-Time Graphs The slope of a D-T graph is equal to the object’s velocity in that segment. slope = change in y change in x time (s) position (m) 10 20 30 40 50 slope = (30 m – 10 m) (30 s – 0 s) slope = (20 m) (30 s) slope = 0.67 m/s
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Distance-Time Graphs The following D-T graph corresponds to an object moving back and forth along a straight path. Can you describe its movement based on the graph? time (s) position (m) N S
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Velocity-Time Graphs A velocity-time (V-T) graph shows an object’s velocity as a function of time. A horizontal line = constant velocity. A straight sloped line = constant acceleration. Acceleration = change in velocity over time. Positive slope = positive acceleration. Not necessarily speeding up! Negative slope = negative acceleration. Not necessarily slowing down!
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Velocity-Time Graphs A horizontal line on the V-T graph means constant velocity. time (s) velocity (m/s) N S Object is moving at a constant velocity North.
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Velocity-Time Graphs A horizontal line on the V-T graph means constant velocity. time (s) velocity (m/s) N S Object is moving at a constant velocity South.
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Velocity-Time Graphs If an object isn’t moving, its velocity is zero.
time (s) velocity (m/s) N S Object is at rest
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Velocity-Time Graphs If the V-T line has a positive slope, the object is undergoing acceleration in positive direction. If v is positive also, object is speeding up. If v is negative, object is slowing down.
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Velocity-Time Graphs V-T graph has positive slope. N S
time (s) velocity (m/s) N S Positive velocity and positive acceleration: object is speeding up! time (s) velocity (m/s) N S Negative velocity and positive acceleration: object is slowing down.
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Velocity-Time Graphs If the V-T line has a negative slope, the object is undergoing acceleration in the negative direction. If v is positive, the object is slowing down. If v is negative also, the object is speeding up.
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Velocity-Time Graphs V-T graph has negative slope. N S
time (s) velocity (m/s) N S Positive velocity and negative acceleration: object is slowing down, time (s) velocity (m/s) N S Negative velocity and negative acceleration: object is speeding up! (in negative direction)
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