There is a two wheel hub motor driven electric car. This car has the acceleration capability of 1.4 m/s2 at 72 km/h cruising speed of 3000 min-1 motor rotational speed on flat road. Calculate the each motor power at these conditions considering the following parameters of the vehicle. Vehicle mass: 1100 kg Wheel Radius: 0.35 m Aerodynamic drag coefficient: 0.3 Mass Factor: 1.04 + 0.0025 i2 Front projective area: 2.1 m2 Rolling resistance coefficient: 0.02 Density of air: 1.25 kg/m3
There is a two wheel hub motor driven electric car. This car has the acceleration capability of 1.4 m/s2 at 72 km/h cruising speed of 3000 min-1 motor rotational speed on flat road. Calculate the each motor power at these conditions considering the following parameters of the vehicle. Vehicle mass: 1100 kg Wheel Radius: 0.35 m Aerodynamic drag coefficient: 0.3 Mass Factor: 1.04 + 0.0025 i2 Front projective area: 2.1 m2 Rolling resistance coefficient: 0.02 Density of air: 1.25 kg/m3
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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There is a two wheel hub motor driven electric car. This car has the acceleration capability of 1.4 m/s2 at 72 km/h cruising speed of 3000 min-1 motor rotational speed on flat road. Calculate the each motor power at these conditions considering the following parameters of the vehicle.
Vehicle mass: 1100 kg
Wheel Radius: 0.35 m
Aerodynamic drag coefficient: 0.3
Mass Factor: 1.04 + 0.0025 i2
Front projective area: 2.1 m2
Rolling resistance coefficient: 0.02
Density of air: 1.25 kg/m3
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