7) The decomposition of azomethane yields nitrogen gas and ethane (C2H6). HH H-CC-H HH H₃C N=N-CH₂...
Azomethane, (CH3)2N2, decomposes in the gas phase to give ethane and nitrogen: (CH3)2N2 (AZO) → C2H6 + N2 The overall pathway of AZO can be described as follows: 2 AZOà AZO + AZO* k1 AZO* + AZO à 2AZO k2 AZO*à C2H6 + H2 K3 Derive overall reaction kinetics by using steady-state approximation, and discuss: How to proceed the reaction as first-order for AZO How to proceed the reaction as second-order for AZO
For the reaction: H2(g)+C2H4(g)-->C2H6(g) Bond & Bond Enthalpy H-H 436.4 kJ/mole C-H 414 kJ/mol C-C 347 kJ/mol C=C 620 kJ/mol Substance & delta Hf H2 0 C2H4 52.3 C2H6 -84.7 (a) estimate the enthalpy of reaction, using the bond enthalpy values from the table in kJ/mol (b) Calculate the enthalpy of reaction, using standard enthalpies of formation
Using bond enthalpies given in the following table, determine the change in enthalpy (H) for the decomposition of 2 moles of ammonia in the gas phase to its constituent elements. Show your work. 2NH3(g)-->N2(g)+3H2(g) Question 16 (4 points) Using bond enthalpies given in the following table, determine the change in enthalpy (H) for the decomposition of 2 moles of ammonia in the gas phase to its constituent elements. Show your work. 2 NH3(g) >N2(g) + 3 H2(g) Bond Bond enthalpy...
Use the molar bond enthalpy data in the table to estimate the value of AHin for the equation Bond O-H 0-0 C-O kJ. mol- 464 142 CH,(8) + 4CI,(8) CCI (B) + 4 HCI(8) Bond CEN N-H N-N NEN kJ. mol-1 890 390 159 418 945 351 The bonding in the molecules is shown. O=0 502 a 730 NEN CC CHCI CH CCI C=0 C-C 347 F-F 155 a CEC - 615 811 414 Ahir J.mol-1 439 C-F C-Cl C-BI...
Use the molar bond enthalpy data in the table to estimate the Average molar bond enthalpies. (Hd value of AHn for the equation kJ mol Bond Воnd kJ mol CH)+HBrig)C,H,Brig) O-H 464 CEN 890 O-O The bonding in the molecules is shown. 142 N-H 390 C-O 351 N-N 159 H Br O-O 502 N-N 418 H-Br NEN C-O 730 945 C-C 347 F-F 155 Enter numeric value С-С 615 CI-CI 243 AH = C C Br-Br I kJ 811 192...
Consider an ionic compound, MX,, composed of generic metal M and generic, gaseous halogen X. • The enthalpy of formation of MX, is AH; = -841 kJ/mol. • The enthalpy of sublimation of Mis AH sub = 111 kJ/mol. • The first and second ionization energies of M are IE = 615 kJ/mol and IE2 = 1353 kJ/mol. The electron affinity of X is AHEA = -319 kJ/mol. (Refer to the hint). • The bond energy of X, is BE...
I need specific explanations for the answer Use the molar bond enthalpy data in the table to estimate the value of AH xn for the equation kJ · mol-1 890 CH_(g) + HBr(g) — CH,Br(g) 464 Average molar bond enthalpies. (Hbond) Bond kJ. mol-1 Bond 0-H CEN 0-0 142 N-H C-O 351 N-N O=0 502 N=N C=0 730 NEN 390 The bonding in the molecules is shown. 159 H Br C -H 418 CSC + HBr - H-C -I 945...
estion 17 of 29 > Attempt 1 Use the molar bond enthalpy data in the table to estimate the value of His for the equation. Bond kJ. mol-' kJ. mol 0-H 464 890 NH,(g) + 20,(g) – HNO,(g) + HO(g) 0-0 142 Bond CHN N-H N-O NEN 390 201 C-O 351 The bonding in the molecules is shown. 0.0 418 Ceo N=0 607 155 Cc 347 CEC 615 243 811 192 AH -222 kl. mol- 414 C=C C-H C-F C-CI...
Use the molar bond enthalpy data in the table to estimate the value of AH x for the equation CCI,() +2F2(g) → CF.(g) + 2 C12(8) The bonding in the molecules is shown. kJ. mol- 890 390 159 418 -945 155 243 FF C-CI F- C- F + F-F Average molar bond enthalpies. (Hbond) Bond kJ. mol-1 Bond O-H 464 CEN 0-0 142 N-H C-o 351 N-N 0=0 502 NEN C=0 730 N=N C-C 347 F-F C=C 615 CI-CI CEC...
Use the molar bond enthalpy data in the table to estimate the value of AHrxn for the equation Average molar bond enthalpies. (Hbond) Bond kJ mol- Bond kJ mol- The bonding in the molecules is shown here. O-H 464 O-O 142 C-O 351 O-O502 CO 730 C-C 347 С-С |615 811 414 439 C-Cl 331 C-Br 276 C-N 293 615 890 N-H 390 N-O 201 418 N O 607 155 1243 Br-Br192 435 565 H-CI 431 H-Br 368 F-F |CI-CI...