1. Compute for the ball's total velocity if t= 0, and initial distance is 3700 m. Large Rubber Ball Free-fall 4000.00 3700.00 3665.10 3445.50 3500.00 3000.00 2681.40 E 2500.00 2000.00 1500.00 63.00 1000.00 500.00 0.00 2 3 Time (s) 2. Compute for the man's total velocity if t = 0, and initial distance is 3700 m. Skydiving Man Distance 4000.00 3700.00 3685.30 3606.90 3386.40 3500.00 2988.00 3000.00 E 2500.00 2000.00 1500.00 1000.00 500.00 0.00 3 Time (s) Distance (m) Height (m)
1. Compute for the ball's total velocity if t= 0, and initial distance is 3700 m. Large Rubber Ball Free-fall 4000.00 3700.00 3665.10 3445.50 3500.00 3000.00 2681.40 E 2500.00 2000.00 1500.00 63.00 1000.00 500.00 0.00 2 3 Time (s) 2. Compute for the man's total velocity if t = 0, and initial distance is 3700 m. Skydiving Man Distance 4000.00 3700.00 3685.30 3606.90 3386.40 3500.00 2988.00 3000.00 E 2500.00 2000.00 1500.00 1000.00 500.00 0.00 3 Time (s) Distance (m) Height (m)
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Transcribed Image Text:Problem: Given below are the distance graphs of a very large ball made of entangled rubber bands
and a man dropped at a specified initial height from a flying Cessna.
1. Compute for the ball's total velocity if t= 0, and initial distance is 3700 m.
Large Rubber Ball Free-fall
4000.00
3700.00
3665.10
3445.50
3500.00
3000.00
2681.40
2 2500.00
2000.00
1500.00
963.00
1000.00
500.00
0.00
1
3
4
Time (s)
2. Compute for the man's total velocity if t = 0, and initial distance is 3700 m.
Skydiving Man Distance
4000.00
3700.00
3685.30
3606.90
3386.40
3500.00
2988.00
3000.00
2500.00
2000.00
1500.00
1000.00
500.00
0.00
1
3
4
5
6.
Time (s)
Distance (m)
Height (m)
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