1 2 3 4 in O 5 6 7 8 9 Position cm 0 www www *** 0 0.0156 0.0313 0.0458 0.0615 0.0844 www 0.1031 www 0.1219 *** 0.1417 1

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1 2 3 4 In O 5 6 7 8 9 Position Cm 0 Www Www 0 0 0156 0 0313 0 0458 0 0615 0 0844 Www 0 1031 Www 0 1219 0 1417 1 1 (50.54 KiB) Viewed 30 times

1 2 3 4 In O 5 6 7 8 9 Position Cm 0 Www Www 0 0 0156 0 0313 0 0458 0 0615 0 0844 Www 0 1031 Www 0 1219 0 1417 1 2 (49.91 KiB) Viewed 30 times

1 2 3 4 In O 5 6 7 8 9 Position Cm 0 Www Www 0 0 0156 0 0313 0 0458 0 0615 0 0844 Www 0 1031 Www 0 1219 0 1417 1 3 (37.56 KiB) Viewed 30 times

1 2 3 4 in O 5 6 7 8 9 Position cm 0 www www *** 0 0.0156 0.0313 0.0458 0.0615 0.0844 www 0.1031 www 0.1219 *** 0.1417 10 www 0 0.1604 Jump To Position vs Trial 1 Time Jump To Graph 2 in X 10 15 20 20 15 10 5 www Trial 1 Time S t₁ *** Trial 2 Time 5 t₂ *** 0 0.0156 0.0313 0.0458 0.0615 0.0844 0.1031 0.1219 0.1417 0.1604 + Add Another Graph & OU F Trial 3 Time 5 0 0.0167 0.0323 0.0479 0.0635 0.0865 0.1052 0.1240 0.1437 0.1635 t₂ ww Trial 4 Time S 0 00177 0.0354 0.0521 0.0698 0.0927 0.1135 0.1344 0.1552 0.1760 t₂ 58°F ***
3. Select trial 2. Use the graph to determine the velocity of the ball as it approaches the wall. Hide Hint Hint: Here are some tips for using the graph. • select the time data for trial 2 on the horizontal axis • click the cog in the upper right of the graph, then click curve fit and select a linear fit • click and drag to select the data points for the motion of the ball as it moves towards the wall use the curve fit parameters to find the velocity Position vs Trial 1 time 0 15 10 0.06 Trial 1 time (s) m/s Submit Answer x unlimited submissions remaining Heads Up! You need to submit this answer for it to save and be graded. Score: Comments: 0/1 Here are some tips for using the graph! Al Position (cm) S 0.12 select the time data for trial 2 on the horizontal axis • click the cog in the upper right of the graph, then click curve fit and select a linear fit click and drag to select the data points for the motion of the ball as it moves towards the wall At promete to find the locitar с 0.02 0.04 0.08 0.1
O Read the time on the stopwatch 00229 Subest over ✔unlimited submissions remaining Score: Comments 141 Yes! Well measured. 5. Your goal is to use the impulse-momentum theorem to determine the magnitude of the average force the wall imparts on the ball The mass of the ball is 283 grams N Submit Answer * unlimited submissions remaining Heads Up! You need to submit this answer for it to save and be graded. Score: Comments: 0/2 Use the equation Af= - Fat Solve for F, and substitute the values for mass, the duration of the collision, and the change in velocity 6. Show your process for determining the average force applied on the ball by the wall. Hint: You can upload a photo of work on a paper or whiteboard by clicking the picture icon BIU ECO