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23 April, 15:38

A hanging iron wire with diameter 1.9 mm (1.9 * 10-3 m) is initially 0.75 m long. When a 68 kg mass is hung from it, the wire stretches an amount 0.881 mm. A mole of iron has a mass of 56 grams, and its density is 7.87 g/cm3. Find the approximate value of the effective spring stiffness of the interatomic bond. N/m

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  1. 23 April, 15:51
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    The approximate value of the effective spring stiffness of the interatomic bond 4.209*10^ (-18) N/m.

    Explanation:

    To solve the question we first calculate the spring stiffness thus

    F = k*e

    Where F = force in Newtons

    e = extension in meters

    k = spring stiffness

    The force = force of gravity = mass*acceleration

    = 68 kg * 9.81 m/s^2 = 667.08 N

    Extension = 0.881 mm = 8.8*10^ (-4) m

    Therefore 667.08 N = k * 8.8*10^ (-4) m

    Or k = 7.573*10^5 N/m

    Mass of one mole of iron Fe = 56 grams,

    Density of one mole of iron = 7.87 g/cm3.

    Therefor volume of one mole of iron = (Mass of one mole of iron) / (Density of iron) = (56 g) / (7.87 g/cm3.) = 7.116 cm ^3 = 7.116 cm ^3 * (1 m^3) / (1*10^6 cm^3) = 7.116*10^ (-6) m^3

    Since the diameter of wire = 1.9*10^ (-3) m then the area of the cross section of the wire = D^2*pi/4 = Diameter^2*pi/4 = pi * ((1.9*10^ (-3) m) ^2) / 4 = 2.84*10^ (-6) m^2

    Therefore one mole of iron will be present in

    (7.116*10^ (-6) m^3) / (2.84*10^ (-6) m^2) length of wire or 2.51 m length of wire

    However, length of wire = 0.75 m which is equivalent to (0.75 m) / (2.51 m/mole) = 0.2988 moles

    By Avogadro's law

    0.2988 moles contains

    0.2988 * 6.02 * 10^23 atoms = 1.799 * 10^23 atoms

    The approximate value of spring stiffness = (7.573*10^5 N/m) / (1.799 * 10^23 atoms) = 4.209*10^ (-18) N/m

    The approximate interatomic bond spring stiffness = 4.209*10^ (-18) N/m
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