1 / 15

Today

Today. Kinematics: Description of Motion Position and displacement velocity average instantaneous acceleration average instantaneous. 09. x (m). 3. t. 4. -3. Displacement. Change in position from initial time to final time. v(t). Velocity. x(t). Slope of x vs t gives v vs t

wswift
Download Presentation

Today

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Today • Kinematics: Description of Motion • Position and displacement • velocity • average • instantaneous • acceleration • average • instantaneous 09

  2. x (m) 3 t 4 -3 Displacement • Change in position from initial time to final time

  3. v(t) Velocity x(t) • Slope of x vs t gives v vs t • Area under v vs t gives Dx! • Which plot best represents v(t) 4s Dx Dt t 5s v(t) v(t) t t t

  4. v(t) v(t) Dv t Dt Acceleration (m/s2) • The average acceleration is the change in velocity divided by the change in time. • Instantaneous acceleration is limit of average velocity as Dt gets small. It is the slope of the v(t) plot t 31

  5. x (m) 3 t 4 -3 Position vs Time Plots • Gives location at any time. • Displacement is change in position. • Slope gives velocity. Position at t=3, x(3) = Displacement between t=1 and t=5.Dx = Average velocity between t=1 and t=5. v = 12

  6. velocity at t=2, v(2) = Displacement between t=0 and t=3: Dx= Average velocity between t=0 and t=3? v= Change in v between t=3 and t=5. Dv = Average acceleration between t=3 and t=5: a = Velocity vs Time Plots v (m/s) • Gives velocity at any time. • Area gives displacement • Slope gives acceleration. 3 1.5 6 t 4 -3 18

  7. Acceleration at t=4, a(4) = Change in v between t=1 and t=4. Dv = Acceleration vs Time Plots • Gives acceleration at any time. • Area gives change in velocity a (m/s2) 3 t 4 t=1-3: Dv = -3 t=3-4: Dv = 21

  8. Graphs

  9. Graphs

  10. Direction, Direction, Direction Velocity Acceleration Type of motion + + + - - - - +

  11. v v v A B 3 3 3 C t t t 4 4 4 -2 -2 -2 v v 3 3 E D y t x t 4 4 -2 -2 Dropped Ball • A ball is dropped from a height of two meters above the ground. • Draw vy vs t 34

  12. v v v A B C 3 3 3 t t t 4 4 4 -2 -2 -2 v v 3 3 D E y t x t 4 4 -2 -2 Tossed Ball • A ball is tossed from the ground up a height of two meters above the ground. And falls back down • Draw v vs t 42

  13. position vs. time Example: position vs. time • Where is velocity zero? • Where is velocity positive? • Where is velocity negative? • Where is speed largest? • Where is acceleration zero? • Where is acceleration positive? 48

  14. velocity vs. time Example: velocity vs. time • Where is velocity zero? • Where is velocity positive? • Where is velocity negative? • Where is speed largest? • Where is acceleration zero? • Where is acceleration positive?

  15. Summary of Concepts • kinematics: A description of motion • position:your coordinates • displacement:x = change of position • velocity:rate of change of position • average : x/t • instantaneous: slope of x vs. t • acceleration:rate of change of velocity • average: v/t • instantaneous: slope of v vs. t 50

More Related