Using the data in the figure below, calculate the minimum mass (in grams) of propane, C3H8(g), that must be combusted to provide the energy necessary to convert 14.10 kg of ice at -15.00°C to liquid water at 80.00°C. The enthalpy of fusion of ice is 6.020 kJ/mol, and the heat capacities for H2O(I) and H2O(s) are 4.184 J/g-°C and 2.030 J/g-°C, respectively. (Assume the combustion of propane yields the H2O product as a gas.) Substance AHi (kJ/mol) C3H8 (g) -108.4 O2 (g) CO2 (g) -393.5 H20 (g) -241.8

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101 Chem101
Answered: Liquid butane is used
Pt Periodic Table - Ptable
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Question 34 of 34
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Using the data in the figure below, calculate the minimum mass (in
grams) of propane, C:H:(g), that must be combusted to provide the
energy necessary to convert 14.10 kg of ice at -15.00°C to liquid water
at 80.00°C. The enthalpy of fusion of ice is 6.020 kJ/mol, and the heat
capacities for H»O(I) and H2O(s) are 4.184 J/g.°C and 2.030 J/g.°C,
respectively. (Assume the combustion of propane yields the H2O
product as a gas.)
382 g
Substance
AH¡ (kJ/mol)
1
2
C3H8 (g)
-108.4
О2 (9)
4
C
СО (9)
-393.5
7
8
9.
H2O (g)
-241.8
+/-
х 100
8:49 PM
DELL
12/13/2021
...
3.
Transcribed Image Text:101 Chem101 Answered: Liquid butane is used Pt Periodic Table - Ptable cf2o lewis structure - Google Sea X O X A app.101edu.co Question 34 of 34 Submit Using the data in the figure below, calculate the minimum mass (in grams) of propane, C:H:(g), that must be combusted to provide the energy necessary to convert 14.10 kg of ice at -15.00°C to liquid water at 80.00°C. The enthalpy of fusion of ice is 6.020 kJ/mol, and the heat capacities for H»O(I) and H2O(s) are 4.184 J/g.°C and 2.030 J/g.°C, respectively. (Assume the combustion of propane yields the H2O product as a gas.) 382 g Substance AH¡ (kJ/mol) 1 2 C3H8 (g) -108.4 О2 (9) 4 C СО (9) -393.5 7 8 9. H2O (g) -241.8 +/- х 100 8:49 PM DELL 12/13/2021 ... 3.
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