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A vehicle of 1 200 kg is moving at a speed of 40 km/h on an incline of 1 in 50. The total constant rolling and wind resistance is 600 N. The efficiency of the drive from the engine trough the gearbox to the wheels is 80 % and the gear ratio causes a final engine to wheel velocity ratio of 4:1. The effective wheel diameter is 500 mm. Calculate the engine power to maintain this speed.

Respuesta :

Answer:11.602 KW

Explanation:

mass of vehicle[tex]\left ( m\right )=1200 kg[/tex]

speed=40Km/h

Resistance=600 N

[tex]\eta =80%[/tex]

Gear ratio[tex]\left ( G\right )=4:1[/tex]

[tex]D_{effective}=500mm[/tex]

Net force to overcome by engine is

F=Resistance + sin component of weight

F=600+[tex]mgsin\theta [/tex]

Where [tex]tan\theta =[tex]\frac{1}{50}[/tex]

[tex]\theta =1.1457^{\circ}[/tex]

[tex]F=600+1200\times 9.81\times sin\left ( 1.1457\right )[/tex]

F=600+235.38=835.38 N

power=[tex]F.v=835.38\frac{100}{9}[/tex]

Engine Power=[tex]\frac{835.\frac{100}{9}}{\eta }[/tex]=11.602 KW

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