Calculations .
Average Time for 5 ft:
a.) Average Time = Time + Time + Time . . . / number of times recorded
b.) Average Time = (.92 s + .86 s + 1.07 s + 1.01 s + .95 s + .89 s + .81 s +.83 s + .81 s + .91 s) / 10
c.) Average Time = .91 s
Average Total Time:
a.) Average Time = Time + Time + Time . . . / number of times recorded
b.) Average Time = (10.42 s +10.40 s +10.44 s + 10.42 s + 8.61 s + 8.64 s + 13.08 s + 14.60 s + 10.51 s) / 9
c.) Average Time = 10.79 s
Average Total Distance:
a.) Average Distance = Distance + Distance + Distance . . . / number of distances recorded
b.) Average Distance = (53 ft + 53 ft + 55 ft + 54 ft + 54 ft + 60 ft + 65 ft + 56 ft) / 8
c.) Average Distance = 56 ft
Average Lateral Distance:
a.) Average Distance = Distance + Distance + Distance . . . / number of distances recorded
b.) Average Distance = (4.3 ft + 4.3 ft + 4.3 ft + 4.3 ft + 4.3 ft + 4.3 ft + 4.3 ft + 4.3 ft) / 8
c.) Average Distance = 4.3 ft
Average Velocity (Speed) for 5 ft:
a.) Velocity = Distance / Time (or V = D / t)
b.) V = 5 ft / .91 s
c.) V = 5.49 ft/s
Average Velocity (Speed) for Total Distance:
a.) Velocity = Distance / Time (or V = D / t)
b.) V = 56 ft / 10.79 s
c.) V = 5.19 ft/s
(Mass)(Speed) Product or Momentum for 5 ft:
a.) Momentum = (Mass)(Speed) (or p = ms)
b.) Momentum = (134 g)(5.49 ft/s)
c.) Momentum = 735.66 (g)(ft)/s
(Mass)(Speed) Product or Momentum for Total Distance:
a.) Momentum = (Mass)(Speed) (or p = ms)
b.) Momentum = (134 g)(5.19 ft/s)
c.) Momentum = 695.46 (g)(ft)/s
Z Value or Straight Line Distance:
a.) Z = [Distance - 3 x lateral distance] (or Z = [D - 3E])
b.) Z = [56 ft - 3(4.3 ft)]
c.) Z = 43 ft
*Note: For calculation of average velocity for 5 ft, average time for 5 ft was used for t.
For calculation of average velocity for total distance, average total distance was used for D and average time for total time was used for t.
For calculation of momentum for 5 ft, average velocity (or speed) for 5 ft was used for s.
For calculation of momentum for total distance, average velocity (or speed) for total distance was used for s.
For calculation of Z value, the average total distance was used for D and the average lateral distance was used for E.
a.) Average Time = Time + Time + Time . . . / number of times recorded
b.) Average Time = (.92 s + .86 s + 1.07 s + 1.01 s + .95 s + .89 s + .81 s +.83 s + .81 s + .91 s) / 10
c.) Average Time = .91 s
Average Total Time:
a.) Average Time = Time + Time + Time . . . / number of times recorded
b.) Average Time = (10.42 s +10.40 s +10.44 s + 10.42 s + 8.61 s + 8.64 s + 13.08 s + 14.60 s + 10.51 s) / 9
c.) Average Time = 10.79 s
Average Total Distance:
a.) Average Distance = Distance + Distance + Distance . . . / number of distances recorded
b.) Average Distance = (53 ft + 53 ft + 55 ft + 54 ft + 54 ft + 60 ft + 65 ft + 56 ft) / 8
c.) Average Distance = 56 ft
Average Lateral Distance:
a.) Average Distance = Distance + Distance + Distance . . . / number of distances recorded
b.) Average Distance = (4.3 ft + 4.3 ft + 4.3 ft + 4.3 ft + 4.3 ft + 4.3 ft + 4.3 ft + 4.3 ft) / 8
c.) Average Distance = 4.3 ft
Average Velocity (Speed) for 5 ft:
a.) Velocity = Distance / Time (or V = D / t)
b.) V = 5 ft / .91 s
c.) V = 5.49 ft/s
Average Velocity (Speed) for Total Distance:
a.) Velocity = Distance / Time (or V = D / t)
b.) V = 56 ft / 10.79 s
c.) V = 5.19 ft/s
(Mass)(Speed) Product or Momentum for 5 ft:
a.) Momentum = (Mass)(Speed) (or p = ms)
b.) Momentum = (134 g)(5.49 ft/s)
c.) Momentum = 735.66 (g)(ft)/s
(Mass)(Speed) Product or Momentum for Total Distance:
a.) Momentum = (Mass)(Speed) (or p = ms)
b.) Momentum = (134 g)(5.19 ft/s)
c.) Momentum = 695.46 (g)(ft)/s
Z Value or Straight Line Distance:
a.) Z = [Distance - 3 x lateral distance] (or Z = [D - 3E])
b.) Z = [56 ft - 3(4.3 ft)]
c.) Z = 43 ft
*Note: For calculation of average velocity for 5 ft, average time for 5 ft was used for t.
For calculation of average velocity for total distance, average total distance was used for D and average time for total time was used for t.
For calculation of momentum for 5 ft, average velocity (or speed) for 5 ft was used for s.
For calculation of momentum for total distance, average velocity (or speed) for total distance was used for s.
For calculation of Z value, the average total distance was used for D and the average lateral distance was used for E.
worked on by alex thephachanh and shannon brennan :)