Problem 10 po). What volume of propane (C,H,(9) measured at 300 K and 1.00 atm must be burned to heat 1.00 kg of water from 20.0°C to 90.0°C? The standard heat of combustion of propane in the reaction is: C,Hg(9) + 50,(9) → 3CO,9) + 4H,0(), AH: = - 2220; kJ mol

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Problem #10 on my review sheet

**Educational Transcription:**

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**Problem 10: [Points not visible]**

*Question:* What volume of propane (\(C_3H_8(g)\)) measured at 300 K and 1.00 atm must be burned to heat 1.00 kg of water from 20.0°C to 90.0°C? The standard heat of combustion of propane in the reaction is:

\[ C_3H_8(g) + 5O_2(g) \rightarrow 3CO_2(g) + 4H_2O(l), \quad \Delta H^\circ_c = -2220 \, \frac{\text{kJ}}{\text{mol}} \]

The gram-specific heat of water is \(4.184 \, \frac{\text{J}}{\text{g}^\circ\text{C}}\).

*Instruction:* Enter your answer in the box provided with correct units and significant figures.

*Answer Box:*

\[ \text{The volume of propane is:} \quad V_{C_3H_8} = \]

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*Note:* In the question, students are required to calculate the volume of propane needed to increase the temperature of water using the given combustion equation and specific heat calculations. The reaction’s enthalpy change and specific heat capacity are essential for solving this problem.
Transcribed Image Text:**Educational Transcription:** --- **Problem 10: [Points not visible]** *Question:* What volume of propane (\(C_3H_8(g)\)) measured at 300 K and 1.00 atm must be burned to heat 1.00 kg of water from 20.0°C to 90.0°C? The standard heat of combustion of propane in the reaction is: \[ C_3H_8(g) + 5O_2(g) \rightarrow 3CO_2(g) + 4H_2O(l), \quad \Delta H^\circ_c = -2220 \, \frac{\text{kJ}}{\text{mol}} \] The gram-specific heat of water is \(4.184 \, \frac{\text{J}}{\text{g}^\circ\text{C}}\). *Instruction:* Enter your answer in the box provided with correct units and significant figures. *Answer Box:* \[ \text{The volume of propane is:} \quad V_{C_3H_8} = \] --- *Note:* In the question, students are required to calculate the volume of propane needed to increase the temperature of water using the given combustion equation and specific heat calculations. The reaction’s enthalpy change and specific heat capacity are essential for solving this problem.
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