APPENDIX C Ihermodynamic Quantities for Selected Substances at 298.15 K (25 1091 "C) AG (ki/mal) дн; (ki/mol) AGi (kj/mol) S' (kj/mol) -245.6 (1/mol-K) (i/mol-K) Substance Vanadium Substance SOCIE(1) HS(8) HSO4(aq) HSO,() -20.17 -33.01 205.6 453.1 182.2 514.2 Vg) V(s) - 744.5 20.1 156.1 -909.3 28.9 -814.0 -689.9 Zinc Titanium 130.7 95.2 160.9 Zn(g) TIg) TI(S) TICL() TICL(1) TIO:(s) 468 422 180.3 30.76 354.9 41.63 Zn(s) ZnCl, (8) ZnO(s) -369.4 -415.1 111.5 -763.2 -726.8 -728.1 -889.4 -348.0 -318.2 43.9 -804.2 -944.7 221.9 50.29 Average Bond Enthalpies (kJ/mol) TABLE 8.3 Single Bonds C-H 413 N-H 391 О—н 463 F-F 155 348 N-N 163 0-0 146 CI-F 293 201 0-F 190 253 C-0 358 N-F 272 0-CI 203 Cl-CI 242 C-F 485 200 0-I 234 N-CI 243 C-CI 328 N-Br Br-F 237 C-Br 276 S-H 339 Br-CI 218 C-I 240 Н-Н 436 S-F 327 Br-Br 193 C-S 259 Н—F 567 S-CI 253 Н—СІ 431 S-Br 218 I-CI 208 Si-H 323 Н—Br 366 S-S 266 I-Br 175 Si-Si 226 Н-I 299 I-I 151 Si-C 301 Si-O 368 Si-CI 464 Multiple Bonds 495 614 N=N 418 0=0 839 N=N 941 615 607 523 C=N 891 S=S 418 799 1072

Acetylene (C₂H₂) and nitrogen (N₂) both contain a triple
bond, but they differ greatly in their chemical properties.
(a) Write the Lewis structures for the two substances. (b) By referring to Appendix C, look up the enthalpies of formation
of acetylene and nitrogen. Which compound is more stable?
(c) Write balanced chemical equations for the complete
oxidation of N₂ to form N₂O₅(g) and of acetylene to form
CO₂(g) and H₂O(g). (d) Calculate the enthalpy of oxidation
per mole for N₂ and for C₂H₂ (the enthalpy of formation
of N₂O₅₍g) is 11.30 kJ/mol). (e) Both N₂ and C₂H₂ possess
triple bonds with quite high bond enthalpies (Table 8.3).
Calculate the enthalpy of hydrogenation per mole for both
compounds: acetylene plus H₂ to make methane, CH₄;
nitrogen plus H₂ to make ammonia, NH₃.

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APPENDIX C Ihermodynamic Quantities for Selected Substances at 298.15 K (25 1091 "C) AG (ki/mal) дн; (ki/mol) AGi (kj/mol) S' (kj/mol) -245.6 (1/mol-K) (i/mol-K) Substance Vanadium Substance SOCIE(1) HS(8) HSO4(aq) HSO,() -20.17 -33.01 205.6 453.1 182.2 514.2 Vg) V(s) - 744.5 20.1 156.1 -909.3 28.9 -814.0 -689.9 Zinc Titanium 130.7 95.2 160.9 Zn(g) TIg) TI(S) TICL() TICL(1) TIO:(s) 468 422 180.3 30.76 354.9 41.63 Zn(s) ZnCl, (8) ZnO(s) -369.4 -415.1 111.5 -763.2 -726.8 -728.1 -889.4 -348.0 -318.2 43.9 -804.2 -944.7 221.9 50.29

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Average Bond Enthalpies (kJ/mol) TABLE 8.3 Single Bonds C-H 413 N-H 391 О—н 463 F-F 155 348 N-N 163 0-0 146 CI-F 293 201 0-F 190 253 C-0 358 N-F 272 0-CI 203 Cl-CI 242 C-F 485 200 0-I 234 N-CI 243 C-CI 328 N-Br Br-F 237 C-Br 276 S-H 339 Br-CI 218 C-I 240 Н-Н 436 S-F 327 Br-Br 193 C-S 259 Н—F 567 S-CI 253 Н—СІ 431 S-Br 218 I-CI 208 Si-H 323 Н—Br 366 S-S 266 I-Br 175 Si-Si 226 Н-I 299 I-I 151 Si-C 301 Si-O 368 Si-CI 464 Multiple Bonds 495 614 N=N 418 0=0 839 N=N 941 615 607 523 C=N 891 S=S 418 799 1072