Answer the following questions about the reaction: ZNO(g) + 2 H₂(g) → N₂ (9) + 2 H₂O (9) If the rate of change of NO is -0.485 M/min, then the rate of change of N₂is | Select] The rate law is given as: rate= k[H₂ [NO2. If the concentration of each reactant is coubled, then the overall rate of the The concentration of NO decreases from Using the rate constant from the previo Mechanism A: 2 NO (g) N₂O₂ (g) + H₂ (9) Of the mechanisms shown below, only N₂O₂ (9) (slow) about the reaction: N₂O (9) + H₂ (9) N₂ (9) + [Select] 0.243 M/min 0.485 M/min, then the rate of change of 2 ✓ -0.243 M/min -0.970 M/min 0.970 M/min -0.485 M/min = k [H₂] [NO]². If the concentration of a N₂O (9) reases from 0.750 M to 0.375 M in 1.49 min. The rate constant of this reaction is 2 NO (g) + 2 H₂ (9)→ N₂ (9) verall rate of the reaction would c 1.79 M^-1 min^-1 cer

just the part in red, I listed the options too. (:

Transcribed Image Text:

Question 1 Answer the following questions about the reaction: 2 ZNO(g) + 2 H₂(g) → N₂ (9) + 2 H₂O (9) If the rate of change of NO is -0.485 M/min, then the rate of change of N₂ is Select] The rate law is given as: rate= The concentration of NO decreases fro k[H₂ [NO2. If the concentration of each reactant is coubled, then the overall rate of the react Using the rate constant from the previo Of the mechanisms shown below, only Mechanism B: 2 NO (9) N₂O₂ (g) + H₂ (9) N₂O (9)+ H₂ (9) Mechanism A: 2 NO (9) -> N₂O₂ (9) (slow) N₂O₂ (g) + H₂ (9) N₂O (9) N₂ (9) + N₂O (9) + H₂ (9) Mechanism D: N₂O₂ (9) (fast) about the reaction: [Select] 0.243 M/min 0.485 M/min, then the rate of change of 2 -0.243 M/min -0.970 M/min 0.970 M/min = k H₂] [NO]². If the concentration of -0.485 M/min N₂O (g) + H₂O (9) (slow) N₂ (9) + H₂O (9) (fast) Mechanism C: 2 NO (9) N₂ (9) + O2 (9) (fast) O2 (g) + H₂ (g) - → H₂O2 (9) (fast) H₂O₂ (g) + H₂ (9) 2 H₂O (g) (slow) 2 NO (g) + 2 H₂ (9)→ N₂ (9) reases from 0.750 M to 0.375 M in 1.49 min. The rate constant of this reaction is verall rate of the reaction would c 1.79 M^-1 min^-1 centratio