Match each of the following with its correct answer In the following thermochemical equation: 2H,S(9) + 302(g) 2 H200 + 2 SO2(9) H2O(1) AH= -1123.94kJ/mol -> Calculate the of heat released (in kJ) from consuming 31 g of O, gas Choo

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Match each of the following with its correct answer
In the following thermochemical equation:
2H,S(9) + 302(9)
2 H,00 + 2 S02(9).
AH= -1123.94kJ/mol
->
Calculate the of heat released (in kJ) from consuming 31 g of O, gas
Choose...
A ballon originally had a volume of 5.39 L at 317 K and a pressure of 755 mmHg.
To what temperature ( in K) must the balloon be cooled to reduce its volume to
4.00 L at a pressure of 620 mmHg?
Choose... :
Transcribed Image Text:Match each of the following with its correct answer In the following thermochemical equation: 2H,S(9) + 302(9) 2 H,00 + 2 S02(9). AH= -1123.94kJ/mol -> Calculate the of heat released (in kJ) from consuming 31 g of O, gas Choose... A ballon originally had a volume of 5.39 L at 317 K and a pressure of 755 mmHg. To what temperature ( in K) must the balloon be cooled to reduce its volume to 4.00 L at a pressure of 620 mmHg? Choose... :
In the following chemical equation:
+ 2H,0 (1)
CO2 (9)
->
CH4 (9)
+ 2 02 (9)
Calculate the work associated (J) with the consuming of 48 g of O, at 70.00 °C.
Choose...
( atm.L 101.3 J)
Consider the following reactions:
AH= -1939.40
2 WO3 (s)
kJ/mol
2W(s) + 302 (9)
2H20 (9)
AH= - 477.84
kJ/mol
2H2 (9)
+ 02 (9)
(g)
->
Choose...
:Use Hess's law to Calculate AH (in kJ/mol) for the following reaction
Ws)
+ 3H,0 (9)
WO3 (s) + 3H2 (9)
following reaction in kJ per g of NO. ( Mw. Of NO = 30.01 g/mol).
1 4 NO(g)
Using the information in the table below, calculate the heat of released from the
6H20(9)
4NH3(9) + 502 (g)
NH3
NO
H,0
Transcribed Image Text:In the following chemical equation: + 2H,0 (1) CO2 (9) -> CH4 (9) + 2 02 (9) Calculate the work associated (J) with the consuming of 48 g of O, at 70.00 °C. Choose... ( atm.L 101.3 J) Consider the following reactions: AH= -1939.40 2 WO3 (s) kJ/mol 2W(s) + 302 (9) 2H20 (9) AH= - 477.84 kJ/mol 2H2 (9) + 02 (9) (g) -> Choose... :Use Hess's law to Calculate AH (in kJ/mol) for the following reaction Ws) + 3H,0 (9) WO3 (s) + 3H2 (9) following reaction in kJ per g of NO. ( Mw. Of NO = 30.01 g/mol). 1 4 NO(g) Using the information in the table below, calculate the heat of released from the 6H20(9) 4NH3(9) + 502 (g) NH3 NO H,0
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