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21 November, 08:25

A fuel pump sends gasoline from a car's fuel tank to the engine at a rate of 6.55x10-2 kg/s. The density of the gasoline is 740 kg/m3, and the radius of the fuel line is 2.67x10-3 m. What is the speed at which gasoline moves through the fuel line?

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  1. 21 November, 11:43
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    speed = 3.95 m/s

    Explanation:

    area = π x radius^2

    area = π x (2.67 x 10^-3) ^2

    volume flow rate = area x speed

    volume / time = area x speed

    density = mass / volume

    volume = mass / density

    mass / (density x time) = area * speed

    mass flow rate = mass / time

    mass flow rate / density = area x speed

    6.55 x 10^-2 / 740 = pi * (2.67 x 10^-3) ^2 * speed

    speed = 8.8514 x 10-5 / 2.2396 x 10-5 m/s

    speed = 3.95 m/s
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