Determine Δ rxn G ° and Δ rxn G for the following reaction at 25 ° C , using data in Appendix 2. The partial pressures of the product and reactants are given in the chemical equation. 2CO ( g , 0.650 bar ) + O 2 ( g , 34.0 bar ) ⇌ 2 CO 2 ( g , 0.0250 bar )
Determine Δ rxn G ° and Δ rxn G for the following reaction at 25 ° C , using data in Appendix 2. The partial pressures of the product and reactants are given in the chemical equation. 2CO ( g , 0.650 bar ) + O 2 ( g , 34.0 bar ) ⇌ 2 CO 2 ( g , 0.0250 bar )
Solution Summary: The author explains the Gibbs free energy change for a reaction when reactants and products are present in their standard states of pressure, forms, and concentration.
Determine
Δ
rxn
G
°
and
Δ
rxn
G
for the following reaction at
25
°
C
, using data in Appendix 2. The partial pressures of the product and reactants are given in the chemical equation.
2CO
(
g
,
0.650
bar
)
+
O
2
(
g
,
34.0
bar
)
⇌
2
CO
2
(
g
,
0.0250
bar
)
JON
Determine the bund energy for
UCI (in kJ/mol Hcl) using me
balanced chemical equation and
bund energies listed?
का
(My (9) +36/2(g)-(((3(g) + 3(g)
A Hryn = -330. KJ
bond energy
и-н 432
bond
bond
C-1413
C=C 839 N-H
391
C=O 1010
S-H 363
б-н 467
02 498
N-N
160
N=N
243
418
C-C 341
C-0 358
C=C
C-C 339 N-Br
243
Br-Br
C-Br 274
193
614
(-1 214||(=olin (02) 799
C=N
615
AAL
Determine the bond energy for HCI (
in kJ/mol HCI) using he balanced
cremiculequecticnand bund energles
listed? also c double bond to N is
615, read numbets carefully please!!!!
Determine the bund energy for
UCI (in kJ/mol cl) using me
balanced chemical equation and
bund energies listed?
51
(My (9) +312(g)-73(g) + 3(g)
=-330. KJ
спод
bond energy
Hryn
H-H
bond
band
432
C-1 413
C=C 839 NH
391
C=O 1010
S-1 343
6-H
02 498
N-N
160
467
N=N
C-C
341
CL-
243
418
339 N-Br
243
C-O
358
Br-Br
C=C
C-Br 274
193
614
(-1 216 (=olin (02) 799
C=N
618
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