U..33 a. Using the data in the table above, write the balanced equation for the thermodynamical reaction that will produce Br, when the teacher combines two of the reagents. Justify t thermodynamically favorable by calculating the value of E for the reaction. The compound BrCl can decompose into Br, and Cl2, as represented by the balanced chemical 2 BrCI(g) 2 Br,(g) + Cl,(g) AH° = 1.6 kJ/moln A 0.100 mole sample of pure BRCI(g) is placed in a previously evacuated, rigid 2.00 L cont Eventually the system reaches equilibrium according to the equation above. b. Calculate the pressure in the container before the reaction begins.

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U..33
a. Using the data in the table above, write the balanced equation for the thermodynamical
reaction that will produce Br, when the teacher combines two of the reagents. Justify t
thermodynamically favorable by calculating the value of E for the reaction.
The compound BrCl can decompose into Br, and Cl2, as represented by the balanced chemical
2 BrCI(g) 2 Br,(g) + Cl,(g)
AH° = 1.6 kJ/moln
A 0.100 mole sample of pure BRCI(g) is placed in a previously evacuated, rigid 2.00 L cont
Eventually the system reaches equilibrium according to the equation above.
b. Calculate the pressure in the container before the reaction begins.
Transcribed Image Text:U..33 a. Using the data in the table above, write the balanced equation for the thermodynamical reaction that will produce Br, when the teacher combines two of the reagents. Justify t thermodynamically favorable by calculating the value of E for the reaction. The compound BrCl can decompose into Br, and Cl2, as represented by the balanced chemical 2 BrCI(g) 2 Br,(g) + Cl,(g) AH° = 1.6 kJ/moln A 0.100 mole sample of pure BRCI(g) is placed in a previously evacuated, rigid 2.00 L cont Eventually the system reaches equilibrium according to the equation above. b. Calculate the pressure in the container before the reaction begins.
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