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6 November, 03:14

An empty rubber balloon has a mass of 12.5 g. The balloon is filled with helium at a density of 0.181 kg/m3. At this density the balloon has a radius of 0.498 m. If the filled balloon is fastened to a vertical line, what is the tension in the line? The density of air is 1.29 kg/m3.

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  1. 6 November, 04:07
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    5.5 N

    Explanation:

    mass of balloon (m) = 12.5 g = 0.0125 kg

    density of helium = 0.181 kg/m^{3}

    radius of the baloon (r) = 0.498 m

    density of air = 1.29 kg/m^{3}

    acceleration due to gravity (g) = 1.29 m/s^{2}

    find the tension in the line

    the tension in the line is the sum of all forces acting on the line

    Tension = buoyant force + force by helium + force of weight of rubber

    force = mass x acceleration

    from density = / frac{mass}{volume}, mass = density x volume

    buoyant force = density x volume x acceleration

    where density is the density of air for the buoyant force

    buoyant force = 1.29 x (/frac{4]{3} x π x 0.498^{3}) x 9.8 = 6.54 N

    force by helium = density x volume x acceleration

    force by helium = 0.181 x (/frac{4]{3} x π x 0.498^{3}) x 9.8 = 0.917 N

    force of its weight = mass of rubber x acceleration

    force of its weight = 0.0125 x 9.8 = 0.1225 N

    Tension = buoyant force + force by helium + force of weight of rubber

    the force of weight of rubber and of helium act downwards, so they

    carry a negative sign.

    Tension = 6.54 - 0.917 - 0.1225 = 5.5 N
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