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12 March, 20:39

A 75 g piece of gold (Au) at 1000 K is dropped into 200 g of H2O at 300K in an insulatedcontainer at 1 bar. Calculate the temperature of the system once the equilibrium has beenreached. Assume that CP, mfor Au and H2O are constant and its value for 298 K throughoutthe temperature range of interest.

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  1. 12 March, 20:55
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    the final temperature is T final = 308 K

    Explanation:

    since all heat released by gold is absorbed by water

    Q gold + Q water = Q surroundings = 0 (insulated)

    Assuming first that no evaporation of water occurs, and denoting g as gold and w as water, then

    Q gold = m g*cp g * (T final - T initial g)

    Q gold = m w*cp w * (T final - T initial w)

    where

    m = mass

    cp = specific heat capacity

    T final = final temperature

    T initial g and T initial w = initial temperature of gold and water respectively

    thus

    Q gold + Q water = 0

    m g*cp g * (T final - T initial g) + m w*cp w * (T final - T initial w) = 0

    m g*cp g * T final + m w*cp w * T final = m g*cp g * T initial g + m w*cp w * T initial w

    T final = (m g*cp g * T initial g + m w*cp w * T initial w) / (m g*cp g + m w*cp w)

    replacing values and assuming cp w = 1 cal/gK = 4.816 J/gK and cp g = 0.129 J/gK (from tables), then

    T final = (75 g*0.129 J/gK * 1000 K + 200 g * 4.816 J/gK * 300 K) / (75 g*0.129 J/gK * + 200 g * 4.816 J/gK) = 308 K

    T final = 308 K

    since T boiling water = 373 K and T final = 308 K, we confirm that water does not evaporate

    therefore the final temperature is T final = 308 K
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