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3 January, 04:53

A 15.0 kg sphere is at the origin and a 7.00 kg sphere is at x=20cm. At what position on the x-axis could you place a small mass such that the net gravitational force on it due to the spheres is zero?

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  1. 3 January, 04:56
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    The position of the small mass on the x - axis = 11.87 cm

    Explanation:

    From Newton's law of universal gravitation,

    F₁ = Gm₁X/r₁² ... Equation 1

    Where F₁ = Force exerted on the on the small mass by the first sphere, m₁ = mass of the first sphere, X = mass of the small mass, r₁ = distance between the first sphere and the small mass.

    Also,

    F₂ = Gm₂X/r₂² ... Equation 2

    Where F₂ = Force exerted by the second sphere on the small mass, m₂ = mass of the second sphere, X = mass of the small mass, r₂ = distance between the second sphere and the small mass.

    Note: F₁ = F₂ (Net force on the small mass due to the sphere is zero)

    Therefore,

    Gm₁X/r₁² = Gm₂X/r₂²

    Equating the similar terms from both side of the equation,

    m₁/r₁² = m₂/r₂² ... Equation 3

    Given: m₁ = 15.0 kg, m₂ = 7.00 kg, let r₁ = y cm, then r₂ = (20-y) cm

    Substituting these values into equation 3

    15/y² = 7 / (20-y) ²

    15 (20-y) ² = 7y²

    √{15 (20-y) ² = √7y²

    √15*√ (20-y) ² = √7*√y² (from the law of surd)

    3.87 (20-y) = 2.65y

    77.4 - 3.87y = 2.65y

    Collecting like terms and reordering the equation

    2.65y+3.87y = 77.4

    6.52y = 77.4

    y = 77.4/6.52

    y = 11.87 cm

    Thus the position of the small mass on the x - axis = 11.87 cm
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