Using the table of bond dissociation energies below, calculate the heat of reaction, AH in units of kJ/mol for the following reaction: + Br. - + HBr (Enter just the value, including the algebraic sign, but do not enter units.) AH= kJ/mol Bond BDE (kJ/mol) Bond BDE (kJ/mol) Cl-Cl 247 C6 H5-H 472 Br-Br 192 C, H; CH2-H 376 I-I 151 C6 H5 CH2-Cl 309 H-Cl 431 C6 H5 CH2-Br 263 H-Br 368 C6 H5 CH2-I 213 H-I 297 C6 H5-Br 351
Using the table of bond dissociation energies below, calculate the heat of reaction, AH in units of kJ/mol for the following reaction: + Br. - + HBr (Enter just the value, including the algebraic sign, but do not enter units.) AH= kJ/mol Bond BDE (kJ/mol) Bond BDE (kJ/mol) Cl-Cl 247 C6 H5-H 472 Br-Br 192 C, H; CH2-H 376 I-I 151 C6 H5 CH2-Cl 309 H-Cl 431 C6 H5 CH2-Br 263 H-Br 368 C6 H5 CH2-I 213 H-I 297 C6 H5-Br 351
Chemistry by OpenStax (2015-05-04)
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Chapter18: Representative Metals, Metalloids, And Nonmetals
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Problem 6E: The reaction of quicklime, CaO, with water produces slaked lime, Ca(OH)2, which is widely used in...
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Transcribed Image Text:Using the table of bond dissociation energies below, calculate the heat of reaction, AH in units of kJ/mol for the following reaction:
+ Br. -→
+ HBr
(Enter just the value, including the algebraic sign, but do not enter units.)
AH =
kJ/mol
Bond
BDE (kJ/mol)
Bond
BDE (kJ/mol)
Cl-Cl
247
C6 H5-H
472
Br-Br
192
C6 H5 CH2-H
376
I-I
151
C6 H5 CH2-Cl 309
H-Cl
431
C6 H5 CH2-Br 263
H-Br
368
C6 H5 CH2-I
213
H-I
297
C6 H5-Br
351
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