Power Output Calculations
At 00 incline - T = .94 sec P = ( (.5)(4.29)(3.16)2 + (4.29)(9.8)(0) )/ (.94) P = 22.786 J
2.50 incline - T = .99 sec P = ( (.5)(4.29)(3)2 + (4.29)(9.8)(5.1) )/ (.99) P = 236.08 J
5.00 incline - T = 1.04sec P = ( (.5)(4.29)(2.85)2 + (4.29)(9.8)(10.2) )/ (1.04) P = 429.08 J
7.50 incline - T = 1.22 sec P = ( (.5)(4.29)(2.43)2 + (4.29)(9.8)(15.3) )/ (1.22) P = 537.63 J
10.00 incline - T = 1.225 sec P = ( (.5)(4.29)(2.42)2 + (4.29)(9.8)(15.3) )/ (1.225) P = 710.38 J
12.50 incline - T = 1.24 sec P = ( (.5)(4.29)(2.395)2 + (4.29)(9.8)(15.3) )/ (1.24) P = 870.08 J
15.00 incline - T = 1.37 sec P = ( (.5)(4.29)(2.167)2 + (4.29)(9.8)(15.3) )/ (1.37) P = 938.72J
17.50 incline - T = 1.38 sec P = ( (.5)(4.29)(2.152)2 + (4.29)(9.8)(15.3) )/ (1.38) P = 1081.09 J
20.00 incline - T = 1.53 sec P = ( (.5)(4.29)(1.94)2 + (4.29)(9.8)(15.3) )/ (1.53) P = 1107.16 J
22.50 incline - T = 1.77 sec P = ( (.5)(4.29)(1.677)2 + (4.29)(9.8)(15.3) )/ (1.77) P = 1069.18J
25.00 incline - T = 1.785 sec P = ( (.5)(4.29)(1.66)2 + (4.29)(9.8)(15.3) )/ (1.785) P = 1170.359 J
27.50 incline - T = 1.958 sec P = ( (.5)(4.29)(1.516)2 + (4.29)(9.8)(15.3) )/ (1.958) P = 1164.14 J
30.00 incline - T = 1.96 sec P = ( (.5)(4.29)(1.51)2 + (4.29)(9.8)(15.3) )/ (1.96) P = 1260.00 J
32.50 incline - T = 2.365 sec P = ( (.5)(4.29)(1.25)2 + (4.29)(9.8)(15.3) )/ (2.365) P = 1121.17 J