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7 November, 22:17

If you combine 270.0 ml of water at 25.00 °c and 100.0 ml of water at 95.0 °c, what is the final temperature of the mixture? use 1.00 g/ml as the density of water.

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  1. 7 November, 23:23
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    43.92 °C.

    Explanation:

    If we combine warm water with cold one, the heat will transfer from the hot water to the cold until reaching an equilibrium temperature.

    The amount of heat released by hot water = the amount of heat absorbed by cold water.

    The amount of heat released to or absorbed by water (Q) = m. c.ΔT.

    where, Q is the amount of heat released to or absorbed by water.

    m is the mass of water.

    c is the specific heat capacity of water (c = 4.186 J/g.°C).

    ΔT is the temperature difference (final T - initial T).

    Since, d of water = 1.00 g/mL.

    the mass of cold water at 25.0 °C = d. V = (1.00 g/mL) (270.0 mL) = 270.0 g.

    the mass of warm water at 95.0 °C = d. V = (1.00 g/mL) (100.0 mL) = 100.0 g.

    Q released by warm water = Q absorbed by cold water.

    - (m. c.ΔT) released by warm water = (m. c.ΔT) absorbed by cold water.

    Since c is the same so,

    - (m.ΔT) released by warm water = (m.ΔT) absorbed by cold water.

    - [ (100 g) (final T - 95.0 °C) ] = (270 g) (final T - 25.0 °C).

    - 100 final T + 9500 = 270 final T - 6750.

    270 final T + 100 final T = 9500 + 6750

    370 final T = 16250.

    ∴ final T = 16250/370 = 43.92 °C.
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