A) 742 kj/mol b) 591 kj/mol c)247 kj/mol d) -152 kj/mol e) none of these The numerical value for Bond energy (A 2) is 24 kJ. The bond energy of B 2 = 432 kJ/mol. Click hereto get an answer to your question ️ A hypothetical reaction A2 + B2 → 2AB follows the mechanism as given below: A2 A + A (fast) A + B2 → AB + B (slow)A + B → AB (fast)The order of the overall reaction is: Question: Consider The Following Reaction: A2 + B2 ---> 2AB ΔH = –365 KJ The Bond Energy For A2 Is Half The Amount Of AB. Answer: View Answer. 20) Consider the following reaction: A2 + B2 2AB DH = 365 kJ The bond energy for A2 is half the amount of AB. As Bond energy (A2) = 1/2AB, it is substituted in the previous equation and you have: What is the bond energy of A2? Problem: Consider the following reaction:A2 + B2 → 2AB ΔE = -285 kJThe bond energy for A2 is one-half the amount of the AB bond energy. 1. What is the bond energy of A2? Consider the following reaction: A2 + B2 → 2AB ΔH = –377 kJ The bond energy for A2 is half the amount of AB. Consider the following reaction: A2+B2=2AB Change in Heat: -303 kj The bond energy for A2 is half the amount of AB. Click hereto get an answer to your question ️ The reaction A2 + B2→ 2AB occurs in the following steps A2→ A + A (slow) A + B2→ AB + B (fast) A + B→ AB (fast)The order of reaction is: Explanation: To calculate the A 2 value, the ΔH of the reaction must be considered equal to:. The bond energy of B2 = 417 kJ/mol. ΔH = 2molx(Bond energy, (AB))-[1mo l xBond energy (A 2) + 1mo x Bond energy (B 2) ]. Question 8 Options: None Of These 812 KJ/mol –183 KJ/mol 630 KJ/mol 271 KJ/mol Chemical Equilibria Concept Test Problem 1 Consider the reaction: A 2 + B 2 <---> 2AB The reactants are mixed together and the following is a plot of the reactant and the product concentrations with time: what is the value of the equilibrium constant? Click hereto get an answer to your question ️ Consider the diagram for reaction: A2 + B2 2AB (a) Calculate the Δ H of the reaction. Consider the following reaction: A2 + B2 -> 2AB AH = -365 kJ The bond energy for A2 is half the amount of AB. A) 812 kJ/mol B) 630 kJ/mol C) 271 kJ/mol D) 183 kJ/mol E) none of these. The bond energy of B2 = 439 kj/mol. The bond energy of B2 = 447 The bond energy of B2 = 447 kJ/mol. What is the bond energy? What Is The Bond Energy Of A2? Answer to 51. The bond energy for A2 is one-half the amount of the AB bond energy. A2 + B2 --> 2 AB ΔH = -282 kJ. The bond energy of B2 = 425 kJ/mol. The Bond Energy Of B2 = 447 KJ/mol. Consider the reaction: A2 + B2 ↔ 2AB The reactants are mixed together and the following is a plot of the reactant and product concentrations with time: What is the value of the equilibrium constant? Consider the following reaction. (c) The dotted line curve is the path in the presence of a catalyst. (b) Calculate the energy of activation for forward and backward reaction. (A) 1/2 (B) 1 (C) 2 (D) 4 3) Equilibrium is dynamic