You will now test these predictions using Sparkvue to measure the acceleration of the smart cart). Place 20 gm on your mass hanger. DO NOT LET THE MASS HANGER BANG ONTO THE FLOOR! DO NOT LET THE CART HIT THE PULLEY! Record the acceleration from each run below. Acceleration (m/s²) 420 402 433 Run Acceleration (m/s?) 445 486 Run 4. 3 51719 From this data calculate the average and statistical uncertainty for the acceleration. Acceleration m/s? %3D
You will now test these predictions using Sparkvue to measure the acceleration of the smart cart). Place 20 gm on your mass hanger. DO NOT LET THE MASS HANGER BANG ONTO THE FLOOR! DO NOT LET THE CART HIT THE PULLEY! Record the acceleration from each run below. Acceleration (m/s²) 420 402 433 Run Acceleration (m/s?) 445 486 Run 4. 3 51719 From this data calculate the average and statistical uncertainty for the acceleration. Acceleration m/s? %3D
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Transcribed Image Text:Part 2: Tension - Experiment
You will now test these predictions using Sparkvue to measure the acceleration of the
smart cart). Place 20 gm on your mass hanger.
DO NOT LET THE MASS HANGER BANG ONTO THE FLOOR!
DO NOT LET THE CART HIT THE PULLEY!
Record the acceleration from each run below.
Run Acceleration (m/s²) Run
420
402
+433
Acceleration (m/s?)
445
4
2
3
.415
From this data calculate the average and statistical uncertainty for the acceleration.
Acceleration =
m/s2
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