A fuel was used to heat water in a calorimetry experiment. When butane was burnt, 96070.0 J of heat was transferred to the water, which lead to a Heat change of 21.0 K. Calculate the mass of water that was heated. The specific heat capacity of water 4.18 J/g K) Heat change() - mass (g) x specific heat capacity (Jig K)x temperature change (k) Give your answer to three significant figures

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A fuel was used to heat water in a calorimetry experiment. When butane was burnt, 96070.0 J of heat was transferred to the water, which lead to a Heat change of 21.0 K. Calculate the mass of water that was heated. The specific heat capacity of water 4.18 J/g K) Heat change() - mass (g) x specific heat capacity (Jig K)x temperature change (k) Give your answer to three significant figures

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A fuel was used to heat water in a calorimetry experiment. When butane was burnt, 96070.0 J of heat was transferred to the water, which lead to a
temperature change of 21.0 K.
Calculate the mass of water that was heated.
pt
(The specific heat capacity of water = 4.18 J/g K).
%3D
pt
Heat change (J) = mass (g) x specific heat capacity (J/g K) x temperature change (K)
pt
Give your answer to three significant figures.
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IX Ed
2/28/202
Transcribed Image Text:lpy [References] A fuel was used to heat water in a calorimetry experiment. When butane was burnt, 96070.0 J of heat was transferred to the water, which lead to a temperature change of 21.0 K. Calculate the mass of water that was heated. pt (The specific heat capacity of water = 4.18 J/g K). %3D pt Heat change (J) = mass (g) x specific heat capacity (J/g K) x temperature change (K) pt Give your answer to three significant figures. pt pt 1 pt Submit Answer Try Another Version 10 item attempts remaining 1 pt 1 pt 1 pt 1 pt 1 pt 1 pt 1 pt 1 pt 1 pt 5:50 PM IX Ed 2/28/202
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