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 for the time interval from 225 s to 556 s?
C) What is the average rate of reaction for the time interval from 556 s to 795 s?
The decomposition of N2O5 can be described by the equation 2N2O5(soln)⟶4NO2(soln)+O2(g) Consider the data in the...
The decomposition of N2O5N2O5 can be described by the equation 2N2O5(soln)⟶4NO2(soln)+O2(g) Consider the data in the table for the reaction at 45 ∘C45 ∘C in carbon tetrachloride solution. ? (?)t (s) [N2O5] (?)[N2O5] (M) 0 2.540 205 2.233 476 1.883 765 1.570 Given the data, calculate the average rate of reaction for each successive time interval. What is the average rate of reaction for the time interval from 0 s0 s to 205 s? average rate of reaction: M/sM/s What...
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) + 2 (g) Given this data for the reaction at 45 degrees C in carbon tetrachloride solution, calculate the average rate for each successive time interval. t(s) [N2O5] (M) 0 2.10 195 1.86 556 1.48 825 1.25 Interval: 0 s to 195 s Reaction rate= _____M/s 195 s to 556 s Reaction rate= _____M/s 556 s to 825 s Reaction rate= _____M/s
t(s) The decomposition of N2O5 can be described by the equation [N2O3] (M) 1.798 0 225 1.561 2N203 (soln) 4NO2 (soln) + O2(g) 526 1.292 Consider the data in the table for the reaction at 45 °C in carbon tetrachloride solution. 755 1.118 Given the data, calculate the average rate of reaction for each successive time interval. What is the average rate of reaction for the time interval from 0 s to 225 s? average rate of reaction: M/s What...
The decomposition of N,Os can be described by the equation t(s) 0 2N20: (soln) 4NO2 (soln) + 02 (8) 135 476 [N, 05] (M) 2.242 2.059 1.662 1.343 Consider the data in the table for the reaction at 45 °C in carbon tetrachloride solution. 815 Given the data, calculate the average rate of reaction for each successive time interval. What is the average rate of reaction for the time interval from 0 s to 135 s? average rate of reaction:...
The decomposition of N2O5 can be described by the equation 2N_2O_5(soln) rightarrow 4N02(soln) + 0_2(g) Given these data for the reaction at 45 degree C in carbon tetrachloride solution, calculate the average rate of reaction for each successive time interval.
[N2O5] (M) 0 1.943 185 1.730 446 1.468 775 1.193 The decomposition of N2O5N2O5 can be described by the equation 2N2O5(soln)⟶4NO2(soln)+O2(g)2N2O5(soln)⟶4NO2(soln)+O2(g) Given the data in the table for the reaction at 45 °C in carbon tetrachloride solution, calculate the average rate of reaction for each successive time interval. interval: 0 s to 185185 s average rate of reaction: Not a valid number tools x10y M/sM/s interval: 185185 s to 446446 s average rate of reaction: Not a valid number tools...
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 decomposition of N2O5 in solution in carbon tetrachloride proceeds via the reaction: 2N2O5 (soln) → 4NO2 (soln) + O2 (soln) The reaction is first order and has a rate constant of 4.82 x 10-3 s-1 at 64 oC. The reaction is initiated with 0.058 mol in a 1.25 L vessel. What is the half-life of the reaction?
The decomposition of N20s can be described by the equation t (s) [N2Osl (M) 24,05(soln) 4NO2(soln) +02(g) → 1.81 135 1.66 466 1.35 Given these data for the reaction at 45°C in carbon tetrachloride solution calculate the average rate of reaction for each successive time intervalL Interval: 0 s to 135 s 135 s to 466 s 466 s to 755 s Number Number Number Reaction rate: M/ s M/ s M/s