Based on the bond energies for the reaction below, what is the enthalpy of the reaction?...
Question 25 of 28 Submit Based on the bond energies for the reaction below, what is the enthalpy of the reaction? HC=CH (g) + 5/2 O2 (g) → 2 CO2 (g) + H2O (9) Single HC No 432 411 346 386 305 167 459 358 201 142 Bond zo Multiple Bonds C=C C=C CEN 602 835 615 ku C=0 C= O=0 799 1072 494 ( 4 5 6 +/- 0 x 100 Tap here or pull up for additional resources
Question 25 of 28 Submit Based on the bond energies for the reaction below, what is the enthalpy of the reaction? HC CH (g)5/2 O2 (g) 2 CO2 (g)+H2O (g) н | с N о Single Bond 432 н c 411 346 305 167 N 386 459 358 201 142 799 C C 602 Multiple CC 835 C O 1072 Bonds 494 615 C N kJ х 1 2 3 4 5 6 C 7 8 +- 0 x 100...
Use the bond energies below to estimate AH for the following reaction: CH4 (g) + Cl2 (g) - CH3CI (g) + HCl (g) Bond Energies (kJ/mole) single bonds. multiple bonds H C. Cl H. 432. C=O 799 C. 412. 346. C=C.602 O. 459. 358. 142 C=C 835 Cl 431. 328. 242. O=O 494
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...
Predict whether the following reactions will be exothermic or endothermic. A. N,g) +3H )2NH,) 2H,+o,) Bond (kJ/mol) 432 942 494 155 386 459 522 Endothermic: H-H F-F H-N H-O S O Exothermic: n A
Bond Energies and Heat of Reaction Use the given bond energy values to estimate AH for the following gas-phase reaction. HC= CH - CH + HN HCC HC— CH HC=CH NỮ NH. + HC cỮch Cáo + HẠO HC- CH NH2 HON (Simple energy units required for the answer.) -454 kJ D-values in kJ/mol DH-H = 432 DH-Br = 363 DH-C = 413 DH-N = 391 DH-O = 467 Dc-c = 347 DC-C = 614 DCEC = 839 DC-N =...
Bond H-H Predict whether the following reactions will be exothermic or endothermic. Reaction A. N. (9) + 3H,9 — 2NH, Reaction B. S(g) +0,2) 0,() Reaction C. 2H,09) — 2H,(g) +0,($) Reaction D. 2F(g) — F, (g) N=N AH° (kJ/mol) 432 942 494 155 0=0 F-F H-N 386 459 H-O S=0 522 Which reaction(s) are endothermic? Which reaction(s) are exothermie? D ID OB Strongest bond Weakest bond Answer Bank Si-F Si-I Si-CI
Use average bond enthalpies (linked above) to calculate the enthalpy change for the following gas-phase reaction CH4(g)2F2(g) CH2F2(g) + 2HF(g) To analyze the reaction, first draw Lewis structures for all reactant and product molecules Draw the reaction using separate sketchers for each species. Separate multiple reactants and/or products using the sign from the drop-down arrow. Separate reactants from products using the » symbol from the drop-down menu Remember to include nonbonding valence electrons in your Lewis structures. ChemDoodle HMolecularptructgre O...
.The enthalpy change for the following reaction is -137 kJ. The enthalpy change for the following reaction is -137 kJ. C2H4(g) + H2(g) -> C2H6(g) To analyze the reaction, first draw Lewis structures for all reactant and product molecules. Estimate the C-C bond energy in C2H6(g) , using tabulated bond energies (linked above) for the remaining bonds H C N O F Si P S Cl Br I H 436 413 391 463 565 318 322 347 432 366 299...
Calculate AH® for the reaction using the given bond dissociation energies. CH, (g) +202(9) — CO2(g) + 2 H2O(g) Bond AH° (kJ/mol) 0-0 | 142 H-0 459 C-H 411 C=0 799 O=0 498 C-0 358 This reaction is kJ/mol AH° = O endothermic. O exothermic.