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Distance vs. Time Graphs

Distance vs. Time Graphs. Constant speed negative direction. Describe the type of motion each graph represents. Distance on the Y and time on the X-axis. Note: The slope of these graphs gives you the velocity. Distance vs. Time Graphs. Constant speed negative direction. Standing Still.

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Distance vs. Time Graphs

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  1. Distance vs. Time Graphs • Constant speed negative direction. Describe the type of motion each graph represents. Distance on the Y and time on the X-axis. Note: The slope of these graphs gives you the velocity.

  2. Distance vs. Time Graphs • Constant speed negative direction. • Standing Still Describe the type of motion each graph represents. Distance on the Y and time on the X-axis. Note: The slope of these graphs gives you the velocity.

  3. Distance vs. Time Graphs • Constant speed negative direction. • Standing Still • Decreasing velocity • -a Describe the type of motion each graph represents. Distance on the Y and time on the X-axis. Note: The slope of these graphs gives you the velocity.

  4. Distance vs. Time Graphs • Constant speed negative direction. • Standing Still • Decreasing velocity • -a • Decreasing velocity • -a Describe the type of motion each graph represents. Distance on the Y and time on the X-axis. Note: The slope of these graphs gives you the velocity.

  5. Distance vs. Time Graphs • Constant speed negative direction. • Standing Still • Decreasing velocity • -a • Decreasing velocity • -a • Increasing Velocity • +a Describe the type of motion each graph represents. Distance on the Y and time on the X-axis. Note: The slope of these graphs gives you the velocity.

  6. Velocity vs. Time Graphs • Describe the type of motion each graph represents. Velocity on the Y-axis and Time on the X-axis. Note: The slope of these graphs give you acceleration. The area under the curves gives you displacement. Constant “+” acceleration

  7. Velocity vs. Time Graphs • Describe the type of motion each graph represents. Velocity on the Y-axis and Time on the X-axis. Note: The slope of these graphs give you acceleration. The area under the curves gives you displacement. Constant “+” acceleration No Acceleration (Constant speed “+” direction)

  8. Velocity vs. Time Graphs • Describe the type of motion each graph represents. Velocity on the Y-axis and Time on the X-axis. Note: The slope of these graphs give you acceleration. The area under the curves gives you displacement. Constant “+” acceleration No Acceleration (Constant speed “+” direction) Constant “-” acceleration

  9. Velocity vs. Time Graphs • Describe the type of motion each graph represents. Velocity on the Y-axis and Time on the X-axis. Note: The slope of these graphs give you acceleration. The area under the curves gives you displacement. Constant “+” acceleration No Acceleration (Constant speed “+” direction) Constant “-” acceleration Ball being thrown up and falling down. Or a child on a swing (pendulum).

  10. Acceleration vs. Time • The area under the curve of these graphs will give you velocity. Constant “+” acceleration

  11. Acceleration vs. Time • The area under the curve of these graphs will give you velocity. Constant “+” acceleration Zero Acceleration (Constant Speed)

  12. Acceleration vs. Time • The area under the curve of these graphs will give you velocity. Constant “+” acceleration Zero Acceleration (Constant Speed) Constant “-” acceleration

  13. Story Time? • Tell me a story for the following graphs. • Distance vs. Time and then Velocity vs. Time.

  14. d t Graph Overlays? • Take the previous Distance vs. Time a draw a Velocity vs. Time graph which would show the same movements.

  15. d t v t Graph Overlays? • Take the previous Distance vs. Time a draw a Velocity vs. Time graph which would show the same movements.

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