20 15 10 3 time (s) 4 2 3 1 time (5) 4 5 time (s) G. Two objects appear at the same place (15 cm) at 1 second, one disappears at 20 cm at 2 seconds while another appears at x = 0, both disappear at same location at 3 seconds. (Cannot reproduce with motion sensor. Not a function.) H. Constant velocity of +2 cm/s, acceleration= zero, change in position = 10 cm. I. Constant acceleration = +0.8 cm/s, initial velocity = 0 cm/s. L 2 3 time (s) 4 3 tine (5) time (5) 3 1 time (s) Constant acceleration = -1 cm/s, initial velocity = +3 cm/s. tine (s) J. K. Initial velocity = zero, acceleration is positive and increasing to about +1 cm/s/s. L. Initial velocity zero. For first 2 seconds, acceleration =-2 cm/s, from 2 -3 seconds, acceleration = +4 cm/s; after t = 3 seconds, both velocity and acceleration are zero. M. Acceleration is initially negative, changes to zero. Initial velocity = 4 cm/s, decreases to about -1.5 cm/s. N. Initial velocity = 4 cm/s. Acceleration is initially negative, changes to zero by 3 seconds and remains zero. Final constant velocity = +1.5 cm/s. 0. Initial velocity = -2 cm/s, is constant for first 2 seconds. Then there is a constant acceleration of +1.33 cm/s? as velocity increases to 2 cm/s. v (om/s) v (cm/s) (wa) x 2. v (em/s) 31 ¥(cm/s) (syma) A

Only G, H, and I

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1. For each of the following graphs, discuss with your team and think of a motion that would create the graph. Be sure that you can accurately describe the velocity and acceleration for each motion. 2. Your team will be assigned two motions. Write a detailed description of the motions, with enough detail so that someone can follow your instructions and recreate the graph. 20 20 20 15 15 15 10 10 10 0. 0. 2 3. 5. 1 time (s) time (s) A. Constant position = 5 cm from origin. Velocity = 0, acceleration = 0. %3D B. Constant velocity = +2 cm/s, acceleration = 0, initial position = 5 cm. C. Constant velocity = -3 cm/s, acceleration = 0, initial position = 20 cm. D 20 20 15 15 15 E 10 10 10 1. time (s) 0. time (s) time (s) D. Velocity changes from 0 to +5 cm/s. Acceleration is positive, and constant (if the position vs. time curve is parabolic.) Initial position = 3 cm. E. Velocity and acceleration are both changing and alternating from positive to negative, initial position = 10 cm, alternates from 15 cm to 5 cm. F. Starting from origin, nearly constant velocity of about +17 cm/s for the first second, then changes to negative velocity. Acceleration changes from zero (first second), to negative, to positive (at about 2 seconds). Object "disappears" or data is lost from 3 - 4 seconds. (D) * [em) (wa) x (mo) x

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20 15 E 10 4 time ($) tim: (5) G. Two objects appear at the same place (15 cm) at 1 second, one disappears at 20 cm at 2 seconds while another appears at x = 0, both disappear at same location at 3 seconds. (Cannot reproduce with motion sensor. Not a function.) H. Constant velocity of +2 cm/s, acceleration = zero, change in position = 10 cm. I. Constant acceleration +0.8 cm/s, initial velocity = 0 cm/s. 3 tine (5) time (s) tine (5) 2 5. tina (s) Constant acceleration = -1 cm/s, initial velocity = +3 cm/s. tiae (5) J. K. Initial velocity = zero, acceleration is positive and increasing to about +1 cm/s/s. L. Initial velocity = zero. For first 2 seconds, acceleration =-2 cm/s, from 2-3 seconds, acceleration = +4 cm/s; after t = 3 seconds, both velocity and acceleration are zero. %3D M. Acceleration is initially negative, changes to zero. Initial velocity = 4 cm/s, decreases to about -1.5 cm/s. N. Initial velocity = 4 cm/s. Acceleration is initially negative, changes to zero by 3 seconds and remains zero. Final constant velocity = +1.5 cm/s. 0. Initial velocity = -2 cm/s, is constant for first 2 seconds. Then there is a constant acceleration of +1.33 cm/s as velocity increases to 2 cm/s. () A 3.