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• Use the table of Bond Energies (BE) in the table below to calculate the Heat of Reaction, AHxn for the complete combustion of two moles of liquid ethanal (CH3CHO (1): 2 CH3CHO () + 5 02(9) → 4 CO2 (g) + 4 H20(9) AH:X0 kJ H O = 0 H-C-C H. O =C=0 H-O-H TABLE 9.5 Bond Energies (in kJ/mol)* Single Bonds H N F CI Br H 432 C 411 346 386 305 167 459 358 201 142 S 363 272 226 F 565 485 283 190 284 155 CI 428 327 313 218 255 249 240 Br 362 285 201 217 249 216 190 I 295 213 201 278 208 175 149 Multiple Bonds C=C 602 C=N 615 c=0 745 (799 in CO2) C=C 835 C=N 887 C=0 1072 N=N 418 N=0 607 S=0 (in SO,) 532 N=N 942 0=0 494 S=0 (in SO3) 469 *Data are taken from J. E. Huheey, Keiter, and Keiter, Inorganic Chemistry, 4th ed. (New York: HarperCollins, 1993), pp. A21-A34.

• Use the table of Bond Energies (BE) in the table below to calculate the Heat of Reaction, AHxn for the complete combustion of two moles of liquid ethanal (CH3CHO (1): 2 CH3CHO () + 5 02(9) → 4 CO2 (g) + 4 H20(9) AH:X0 kJ H O = 0 H-C-C H. O =C=0 H-O-H TABLE 9.5 Bond Energies (in kJ/mol)* Single Bonds H N F CI Br H 432 C 411 346 386 305 167 459 358 201 142 S 363 272 226 F 565 485 283 190 284 155 CI 428 327 313 218 255 249 240 Br 362 285 201 217 249 216 190 I 295 213 201 278 208 175 149 Multiple Bonds C=C 602 C=N 615 c=0 745 (799 in CO2) C=C 835 C=N 887 C=0 1072 N=N 418 N=0 607 S=0 (in SO,) 532 N=N 942 0=0 494 S=0 (in SO3) 469 *Data are taken from J. E. Huheey, Keiter, and Keiter, Inorganic Chemistry, 4th ed. (New York: HarperCollins, 1993), pp. A21-A34.

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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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Hi! Could I get this answered again? The first answer was not one of my options. Possible answers are -1060, -2120, -2090, and +1920. Thanks!

Use the table of Bond Energies (BE) in the table below to calculate the Heat of Reaction, AHrxn for the complete combustion of two moles of liquid ethanal (CH3CHO (1): 2 CH3CHO (1) + 5 02(9) 4 CO2 (g) + 4 H20(9) AHrxn = kJ H H-C-C 0 =0 0=C=0 Н-О-Н H H. TABLE 9.5 Bond Energies (in kJ/mol)* Single Bonds H N F CI Br H 432 C 411 346 386 305 167 459 358 201 142 S 363 272 226 - - F 565 485 283 190 284 155 CI 218 255 428 327 313 249 240 Br 362 285 201 217 249 216 190 I 295 213 201 278 208 175 149 - Multiple Bonds C=C 602 C=N 615 C=0 745 (799 in CO,) C=C 835 C=N 887 C=0 1072 N=N 418 N=O 607 S=0 (in SO,) 532 NEN 942 0=0 494 S=0 (in SO,) 469 *Data are taken from J. E. Huheey, Keiter, and Keiter, Inorganic Chemistry, 4th ed. (New York: НaгрerCollins, 1993), рр. А21-А34. AHPXD = | Select v kJ / (2 mol CH3CHO (1) ) Use the: • Heat of Reaction AHrxn values for the combustion of two moles of liquid ethanal (CH3CHO () • the Enthalpies of Formation (AH;°) for carbon dioxide (CO2(9) and water (H20() to calculate the: • Enthalpy of Formation (AHF° ) of 1 mole of liquid ethanal (CH3CHO () ): AH;° = ( Select] v kJ/mol CH3CHO (1) Enthalpies of Formation: CO2(g) AH;° = - 393.5 kJ/mole H20(g) = - 241.8 kJ/mole
Transcribed Image Text:Use the table of Bond Energies (BE) in the table below to calculate the Heat of Reaction, AHrxn for the complete combustion of two moles of liquid ethanal (CH3CHO (1): 2 CH3CHO (1) + 5 02(9) 4 CO2 (g) + 4 H20(9) AHrxn = kJ H H-C-C 0 =0 0=C=0 Н-О-Н H H. TABLE 9.5 Bond Energies (in kJ/mol)* Single Bonds H N F CI Br H 432 C 411 346 386 305 167 459 358 201 142 S 363 272 226 - - F 565 485 283 190 284 155 CI 218 255 428 327 313 249 240 Br 362 285 201 217 249 216 190 I 295 213 201 278 208 175 149 - Multiple Bonds C=C 602 C=N 615 C=0 745 (799 in CO,) C=C 835 C=N 887 C=0 1072 N=N 418 N=O 607 S=0 (in SO,) 532 NEN 942 0=0 494 S=0 (in SO,) 469 *Data are taken from J. E. Huheey, Keiter, and Keiter, Inorganic Chemistry, 4th ed. (New York: НaгрerCollins, 1993), рр. А21-А34. AHPXD = | Select v kJ / (2 mol CH3CHO (1) ) Use the: • Heat of Reaction AHrxn values for the combustion of two moles of liquid ethanal (CH3CHO () • the Enthalpies of Formation (AH;°) for carbon dioxide (CO2(9) and water (H20() to calculate the: • Enthalpy of Formation (AHF° ) of 1 mole of liquid ethanal (CH3CHO () ): AH;° = ( Select] v kJ/mol CH3CHO (1) Enthalpies of Formation: CO2(g) AH;° = - 393.5 kJ/mole H20(g) = - 241.8 kJ/mole
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