The decomposition of dinitrogen pentoxide is described by the
chemical equation
2N2O5(g) →
4NO2(g) + O2(g).
If the rate of appearance of O2 is equal to 2.60 mol
min-1 at a particular moment, what is the rate of
disappearance of N2O5 at that moment?
answer of above question- 5.2 mol min-1
The decomposition of dinitrogen pentoxide is described by the chemical equation 2N2O5(g) → 4NO2(g) + O2(g)....
30) The decomposition of dinitrogen pentoxide is described by the following chemical equation 2 N205(g) - 4 NO2(g) + O2(g) If the rate of disappearance of N2O5 is equal to 1.80 mol/min at a particular moment, what is the rate of appearance of NO2 at that moment? 31) The decomposition of dinitrogen pentoxide is described by the following chemical equation 2 N205(g) - 4 NO2(g) + O2(g) If the rate of appearance of NO2 is equal to 0.560 mol/min at...
The decomposition of dinitrogen pentoxide is described by the following chemical equation 2N205(9) 4NO2(g) + O2(g) If the rate of disappearance of N2O5 is equal to 1.80 mol/min, what is the rate of appearance of NOZ? 7.20 mol/min 1.80 mol/min 1.50 mol/min 0.900 mol/min 3.60 mol/min
The decomposition of dinitrogen pentoxide is described by the chemical equation 2N05(9) + 4NO2(g) + O2(9). If the rate of appearance of NO is equal to 0.860 mol min" at a particular moment, what is the rate of appearance of O2 at that moment? 0.430 mol min1 O 0.215 mol min-1 O 1.72 mol min1 O 3.44 mol min?
The decomposition of N2O5 is described by the following equation. 2N2O5(g) → 4NO2(g) + O2(g) If the rate constant is 2.50 × 10−4 s−1, what is the half-life of this reaction?
The first-order rate constant for the decomposition of N2O5, 2N2O5(g)→4NO2(g)+O2(g) at 70∘C is 6.82×10−3 s−1. Suppose we start with 2.60×10−2 mol of N2O5(g) in a volume of 2.3 L Part A How many moles of N2O5 will remain after 4.0 min ? Part B How many minutes will it take for the quantity of N2O5 to drop to 1.8×10−2 mol ? Part C What is the half-life of N2O5 at 70∘C?
The decomposition of N2O5 can be described by the equation 2n2O5>4NO2+O2 Given these data for the reaction at 45�C in carbon tetrachloride solution, calculate the average rate of reaction for each successive time interval. t(s) [N2O5] 0 2.04 135 1.87 536 1.46 795 1.24 Reaction rate from 0-135 ?? Reaction rate from 135-536 ?? Reaction rate from 536-795 ??
The decomposition of N2O5 can be described by the equation 2N2O5(soln)⟶4NO2(soln)+O2(g) Consider the data in the table for the reaction at 45 ∘C in carbon tetrachloride solution. ? (?) [N2O5] (?) 0 1.934 225 1.679 556 1.363 795 1.173 Given the data, calculate the average rate of reaction for each successive time interval. A) What is the average rate of reaction for the time interval from 0 s0 s to 225 s? B) What is the average rate of reaction...
The first-order rate constant for the decomposition of N2O5, 2N2O5(g)→4NO2(g)+O2(g) at 70∘C is 6.82×10−3 s−1. Suppose we start with 2.30×10−2 mol of N2O5(g) in a volume of 1.5 L . a. How many moles of N2O5 will remain after 6 min ? b. How many minutes will it take for the quantity of N2O5 to drop to 1.9×10−2 mol ? c. What is the half-life of N2O5 at 70∘C?
The first-order rate constant for the decomposition of N2O5, 2N2O5(g)→4NO2(g)+O2(g) at 70∘C is 6.82×10−3 s−1. Suppose we start with 2.00×10−2 mol of N2O5(g) in a volume of 2.0 L . How many moles of N2O5 will remain after 7.0 min? How many minutes will it take for the quantity of N2O5 to drop to 1.6×10−2 mol? What is the half-life of N2O5 at 70∘C?
The first-order rate constant for the decomposition of N2O5, 2N2O5(g)→4NO2(g)+O2(g) at 70∘C is 6.82×10−3 s−1. Suppose we start with 2.40×10−2 mol of N2O5(g) in a volume of 2.1 L. a) How many moles of N2O5 will remain after 7.0 min? b) How many minutes will it take for the quantity of N2O5 to drop to 1.6×10−2 mol?