Calculate for the specific heat of 28.0 g of of mercury (Hg)
when 137 J of energy is involved when raised at an initial
temperature of 22.0°C to a final temperature of 570C.
q = m × C × ΔT
where:
q = amount of heat energy gained or lost by substance (J)
m = mass of sample (g)
C = specific heat capacity (J °C−1 g−1)
ΔT = change in temperature (°C)
q = 137 J
m = 28.0 g
C = unknown
ΔT = Tf − Ti = 57.0°C − 22.0°C = 35.0°C
Thus:
(137 J) = (28.0 g) × C × (35.0°C)
C = (137 J) / (28.0 g × 35.0°C) = 0.13979 J °C−1 g−1 = 0.140 J °C−1 g−1
C = 0.140 J °C−1 g−1
Answer: The specific heat of mercury (Hg) is 0.140 J °C−1 g−1
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