THERMODYNAMICS: Calculate the value of AH (in kJ) for the reaction, 2AR3 (g) + Q (s) → A2R4 (g) + QR2 (s) given the following hypothetical thermochemical equations: AH = -84 kJ AH = -151.3 kJ AH = -537.5 kJ 2AR3 (g) + 2AX (g) → A2R4 (g) + 2XAR (g) AX (g) + ½R2 (g) → XAR (g) Q (s) + R2 (g) → QR2 (s) (Round off final answer to ONE decimal place) Round your answer to 1 decimal place.

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THERMODYNAMICS: Calculate the value of AH (in kJ) for the reaction, 2AR3 (g) + Q (s) → A2R4 (g) + QR2 (s) given the following
hypothetical thermochemical equations:
AH = -84 kJ
AH = -151.3 kJ
AH = -537.5 kJ
2AR3 (g) + 2AX (g) → A2R4 (g) + 2XAR (g)
AX (g) + ½R2 (g) → XAR (g)
Q (s) + R2 (g) → QR2 (s)
(Round off final answer to ONE decimal place)
Round your answer to 1 decimal place.
Transcribed Image Text:THERMODYNAMICS: Calculate the value of AH (in kJ) for the reaction, 2AR3 (g) + Q (s) → A2R4 (g) + QR2 (s) given the following hypothetical thermochemical equations: AH = -84 kJ AH = -151.3 kJ AH = -537.5 kJ 2AR3 (g) + 2AX (g) → A2R4 (g) + 2XAR (g) AX (g) + ½R2 (g) → XAR (g) Q (s) + R2 (g) → QR2 (s) (Round off final answer to ONE decimal place) Round your answer to 1 decimal place.
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