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When 1 mol of methane is burned at constant pressure, −890 kJ/mol of energy is released as heat. If a 1.67 g sample of methane is burned at constant pressure, what will be the value of ∆H
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When 1 mol of methane is burned at constant pressure, −890 kJ/mol of energy is released as heat. If a 1.67 g sample of methane is burned at constant pressure, what will be the value of ∆H

User Rafid Kotta
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1 Answer

3 votes

Answer:


\Delta H=-92.7kJ

Step-by-step explanation:

Hello there!

In this case, according to the given information, we can infer that 890 kJ of energy are released when 1 mole of methane is burned; however, to find the total heat when 1.67 grams are burned, we first need to calculate the moles in this mass of methane:


1.67gCH_4*(1molCH_4)/(16.04gCH_4)=0.104molCH_4

And thus, for calculating the resulting ∆H, we proceed as follows:


\Delta H=-890kJ/mol*0.104mol\\\\\Delta H=-92.7kJ

Regards!

User Akeim
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