The enthalpy change for the following reaction is -121 kJ. CH4(g) + Cl₂(g) t CH3CI(g) + HCl(g) 0- Use the References to access important values if needed for this question. a 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. 1986QA //// 000-I]* Y References ChemDoodle Estimate the C-H bond energy in CH4(9), using tabulated bond energies (linked above) for the remaining bonds. C-H bond energy = kJ/mol

The enthalpy change for the following reaction is -121 kJ. CH4(g) + Cl₂(g) t CH3CI(g) + HCl(g) 0- Use the References to access important values if needed for this question. a 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. 1986QA //// 000-I]* Y References ChemDoodle Estimate the C-H bond energy in CH4(9), using tabulated bond energies (linked above) for the remaining bonds. C-H bond energy = kJ/mol

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Substance AH (kJ/mol) MgCl2(aq) -785.1 kJ/mol HCl(aq) -167.2 kJ/mol Given the enthalpy of formation data in the table, what is the enthalpy of reaction for the reaction you performed in this lab? To calculate the enthalpy of reaction, use the following formula. AHrxn =ΣAH(products) - ΣAH; (reactants) Note that you will need the balanced chemical equation for the reaction performed in the lab. Also, note that AH; for the standard state elements is 0 kJ/mol. AHrxn = Is the calculated result simliar to the experimentally determined result? yes no kJ/mol
Question 7. Use the bond energies provided to estimate ΔH°rxn for the reaction below. CH3OH(l) + 2 O2(g) → CO2(g) + 2 H2O(g) ΔH°rxn = ? Bond Bond Energy (kJ/mol) C-H 410 C-O 359 C=O 799 O=O 498 O-H 454
Use the bond energies from Table 10.3 to calculate ΔH°rxn (in kJ) for the reaction below. You will need to draw the Lewis structures of all reactants and products first. Reaction: 2 H2(g) + C2H2(g) → C2H6(g) ΔH°rxn = ? Enter your response as calculated with the appropriate sign (+ or -) and without units.
Use average bond enthalpies (linked above) to calculate the enthalpy change for the following gas-phase reaction. C2H4(g) + Br2(g) CH,BRCH,Br(g) To analyze the reaction, first draw Lewis structures for all reactant and product molecules. • Include all valence lone pairs in your answer. • Draw the reaction using separate sketchers for each species. One molecule per sketcher, please. Separate multiple reactants and/or products using the + sign from the drop-down arrow. Separate reactants from products using the If you have to draw H,, draw H-H. • Be sure that your structural equation is balanced. symbol from the drop-down menu.
Consider the reaction: NH3(g) + Cl2(g) → NH₂Cl(g) + HCl(g) Compute AH*rxn for the reaction of 100 mol of NH3(g) in excess chlorine using the bond enthalpy data in the table below. Average Bond Enthalpy (kJ/mol) 389 243 202 432 +200 kJ +20 kJ -200 kJ O -20 kJ N-H CI-CI N-CI H-CI
The lattice energy is defined as the energy required to break one mole of an ionic solid into its ions in the gas phase. The lattice energy for calcium oxide corresponds to the following reaction. CaO(s) Ca2+(g) + O2-(g) DH = ? Using the following information, determine the lattice energy for calcium oxide. Ca(s) ----> Ca(g) DH = 178.2 kJ Ca(g) ----> Ca2+(g) + 2e- DH = 1747.9 kJ O2(g) ----> 2O(g) DH = 498.3 kJ O2-(g) ----> O(g) + 2e- DH = -702 kJ Ca(s) + 1⁄2 O2(g) ----> CaO(s) DH = -635.0 kJ Using the unrounded answer from the previous problem determine q (kJ) for the following reaction when 1.00 grams of solid calcium oxide forms. Ca2+(g) + O2-(g) ⟶⟶ CaO(s)
Write an equation for each of the following reactions. Use molecular and structural formulas and classify the reaction as combustion, addition, substitution, hydro genation, or hydration.
CSCI has a lattice energy of -657 kJ/mol. Consider a generic salt, AB, where A²+ has the same radius as Cs*, and B has the same radius as Cl. Estimate the lattice energy of the salt AB. lattice energy of AB: kJ/mol
Calculate the enthalpy of reaction for the combustion reaction (in kJ/mol) shown below. Enter your answer without units. ннно: •. Н-С-С—С—С-Ӧ—Н + 50=0 4 0=c=o° + 4 Н—0—Н ннн Average Bond Energy Bond (kJ/mol) H-H 436 H-C 414 H-O 464 C-C 347 C=C 611 C-0 360 C=O 799 0-0 142 O=0 498 If you cannot see the images above,then click here
Propane is a gas commonly used to fuel gas grills and camping stoves. The structure of propane is shown below. Write the balanced chemical equation for the combustion of propane. Draw out lewis dot structures to represent all molecules of all products and reactants in this reaction. The number of each molecule should be reflected in the balanced equation. Calculate the heat of combustion for propane using the bond enthalpies in the table. 1.00 mol of propane is used to roast marshmallows. It was determined that the amount of energy absorbed by the marshmallows was only 800 kJ. Explain this observation.
Use the data in Thermodynamic Properties and the bond energy in Bond Energies to determine the average C-C bond energy in benzene (C6H₁). 4.0✔ kJ/mol Calculate the average of a C-C single bond and a C=C double bond using the bond energies, which is the value expected from the Lewis structure. 4.0✔ kJ/mol The larger calculated value using thermodynamic properties is due to the fact that the pi system is delocalized, which makes the molecule more stable than predicted by simply averaging the C-C bonds.
The enthalpy change for a chemical reaction is the sum of the energy consumed in breaking bonds and the energy released during bond formation. One way to determine the overall energy change for a chemical reaction is to apply Hess’s law to add together a group of reactions which can be arranged such that the chemical equations, when combined, give the overall equation we are trying to characterize. a. Write a balanced chemical equation for the combustion of gaseous propane in gaseous oxygen to produce gaseous carbon dioxide and liquid water. C3H8(g)+ O2(g) ---->CO2(g)+ H2O(g) b. Combine the following equations to determine the enthalpy change for the combustion of 1 mole of propane. Assume that solid carbon is graphite. 3C(s,graphite)+4H2(g)--->C3H8(g) ΔHo = -103.8 kJ/mol C(s,graphite)+O2(g)--->CO2(g) ΔHo= -393.5 kJ/mol H2(g)+1/2 O2(g)--->H2O(g) ΔHo= -285.8 kJ/mol kJ/mol…