For the vehicle whose specifications are given below, calculate the engine power required in kW to climb up a slope of 12% (40 + XY) with a constant speed of km / h and upwind at a speed of 12 km / h. Mass: 1396 kg Load Breakdown (f / r): 61/39% Length width Height: 4556/1745/1372 mm Drag Coefficient: 0.31 Max. Motor Power: 5750 rpm for 84 kW Max. Torque: 3750 rpm for 157 Nm Max. Motor speed: 6500 rpm Gear Ratios: 3.42, 2.14, 1.45, 1.03, 0.77 Differential Ratio: 3.84 Tires: 185/65 VR 14 SBR Tire
For the vehicle whose specifications are given below, calculate the engine power required in kW to climb up a slope of 12% (40 + XY) with a constant speed of km / h and upwind at a speed of 12 km / h. Mass: 1396 kg Load Breakdown (f / r): 61/39% Length width Height: 4556/1745/1372 mm Drag Coefficient: 0.31 Max. Motor Power: 5750 rpm for 84 kW Max. Torque: 3750 rpm for 157 Nm Max. Motor speed: 6500 rpm Gear Ratios: 3.42, 2.14, 1.45, 1.03, 0.77 Differential Ratio: 3.84 Tires: 185/65 VR 14 SBR Tire
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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For the vehicle whose specifications are given below, calculate the engine power required in kW to climb up a slope of 12% (40 + XY) with a constant speed of km / h and upwind at a speed of 12 km / h. Mass: 1396 kg Load Breakdown (f / r): 61/39% Length width Height: 4556/1745/1372 mm Drag Coefficient: 0.31 Max. Motor Power: 5750 rpm for 84 kW Max. Torque: 3750 rpm for 157 Nm Max. Motor speed: 6500 rpm Gear Ratios: 3.42, 2.14, 1.45, 1.03, 0.77 Differential Ratio: 3.84 Tires: 185/65 VR 14 SBR Tire Pressure (f / r): 2.0 / 1.9 kgf / cm2
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