Part A Use the Born-Haber cycle, data from Appendix llBand the following table to calculate the...
can you please help me with #10 yes i am sorry here it is 0202 =120.4+ -343. 'L'UT1. 10. Ethanol (CH3CH2OH) is a fuel additive. And has the following structure: HCVE-238,+KO HH CHOSE = pana lang 2015 nosioci brod H-CC-O H os os 3.304 - HH Use the average bond energies found in Table 9.3, Tro p. 390 to calculate AHrxn for the combustion of ethanol. CH3CH2OH() + 3 02 (6) ► 2 CO2 (6) + 3 H20 (1) Bond...
Table 9.3: Average Bond Energies Bond Energy (kj/mol) Bonic Energy Il/mol) Bond Energy (kJ/mol) Bond Hond H-H 438 N- N 103 NON 418 210 GHz + 50; Propane Oxygen gas 300, + 4H20 Carbon Water dioxide Bond BF Br-CI BB I- 1-Br 484 N-O 200 368 9:46 222 590 272 200 545 NAF NCI N- Br 151 323 431 364 Do your calculations here: 297 159 301 347 142 206 611 0-0 0-0 498 308 623 190 SO OF 0-...
Determine the Δ Eran, wsys & qǐys for the below reaction at 1.00 atm & 298 K. Bond dissociation values are provided ΔΕ = Bond Energy (kJ/mol) Bond Energy (Il/mol) Bond Energy (kJ/mol) Bond 163 418 N-N Br--F Br C BrBr 2 414 193 208 N-0 N-F N -Br 0-0 272 431 Si-H Si-Si 243 159 142 498 190 301 265 368 523 C-C S-0 611 C-N Si-C 615 891 360 736 327 253 159 S-F S-CI S Br S-S...
Calculate the bond energy for the formation of boron trifluoride. Br-Br + 3 F- F - 2 Br- F F-F 155 0-H 0-0 O-F 0-CI O-I 463 146 190 203 234 Cl-F 253 Cl-C1 242 Br-F 237 Br-Cl 218 Br-Br 193 Average Bond Enthalpies (kJ/mol) Single Bonds C-H 413 N-H 391 C-C 348 N-N 163 C-N 293 N-0 201 C-0 358 N-F 272 C-F 485 N-CI 200 C-C1328 N-Br 243 C-Br 276 C-1 240 H-H 436 C-S 259 H-F 567...
Using the standard enthalpy of formation data, show how the standard enthalpy of formation of HF(g) can be used to determine the bond energy. (Enter unrounded values.) (a) bond energy calculated from standard enthalpy of formation kJ/mol (b) average bond enthalpy from the bond enthalpy table k]/mol Average Bond Enthalpies bondAH bond (kJ/mol) bond AHbond (kJ/mol) bond AH bond (kJ/mol) bond AH bond (kJ/mol) O-H 0-0 467 146 495 185 203 156 364 522 335 544 413 347 614 839...
Use the bond enthalpies in the table below to determine the enthalpy of reaction in the following questions: Average Bond-Enthalpies- (kJ/mol) Single Bonds -H 41 3 348 293 358 485 N- 391 -H 463 -O 146 F-F 155 N-N 163 N-O 201 272 N-CI 200 N-Br 243 CI-P 253 N-I CI-CI 242 O-CI 203 -I 234 C-C Br-p 237 B-CI 218 Br-Br 193 339 327 S-Cl 253 S-Br 218 S-H 240 259 -X-H 436 567 431 366 299 208 175...
What is the enthalpy change for the reaction shown below? C2H2 + HCl -> CH2CHCl a. -34 kJ/mole b. -87 kJ/mole c. +34 kJ/mole d. +87 kJ/mole Bond Dissociation Energies Average Single Bond Energies (kJ per mole) H 436414 389 464 569 293 318 339 431 368 297 347 293 351 439 289 264 259 330 276 238 159 201 272 201 243 138 184 368 351 201 159 540 490 285 255 197 176 213 226 360 289 Si...
2. Consider the gas phase combustion of that molecule: C,Hon + OzoラCoan + H2Ow. A. Calculate the energy needed to break all the bonds in 1 mole of propene, CaHe TABLE 9.4 Bond Energies (kJ/mol)* Single Bonds C-H 414 N-H 389 -H 6 F-F 159 C-C 348 N-N 163 o-o 146 C-F 253 C-N 293 N-o 201-F 19 C-c 242 C-o 351N-F 272 -C 203 r-F 287 C-F 439 N-CI 200 o-1 234 Br-Cl 218 C-Cl 328 N-Br 243 C-Br...
Question 10 1 pts Given the following thermodynamic data, calculate the lattice energy of CaBrz(s). Term Value (kJ/mol) AH°formation[CaBr2(s)] -675 AH sublimation Ca(g)] 178 AH Sublimation[Brz(s)] 31 AH°bond energy[Br2(g)] 194 IE(Ca) IE2(Ca) Ea(Br) 590. 1145 -325 Enter your answer in units of kJ.
The enthalpy change for the following reaction is 95.4 kJ. Using bond energies, estimate the N-H bond energy in N2H4(g). N2(g) + 2H2(g) N2H4(g) kJ/mol The enthalpy change for the following reaction is -92.2 kJ. Using bond energies, estimate the H-H bond energy in H2(g). 2NH3(g) N2(g) + 3H2(g) kJ/mol D Single Bonds Multiple Bonds C N O F Si P S a Br 1 H 436 413 391 463 565 318 322 347 C 413 346 305 358 485...