Nitrous oxide, N₂O, undergoes decomposition on a gold surface at 900 °C, obeying the following stoichiometry: 2 N₂O _(g) --> 2 N_2(g) +O_{2 (g)}

The concentration of the reactant was monitored as a function of time. A graph of ln(N₂O) vs. t gave a graph simlilar to the one in the lab manual. The trendline is Y= -0.01224 X + -2.902, with a y axis of ln(N₂O) and x of time. The correlation coefficient r is -0.9996, for a nearly perfect anticorrelation.

What is the numerical value of the rate constant, k?

What was the initial molarity of the reactant? (N₂O)₀ =

Nitrous oxide, N₂O, undergoes decomposition on a gold surface at 900 °C, obeying the following stoichiometry: 2 N₂O _(g) --> 2 N_2(g) +O_{2 (g)}

The concentration of the reactant was monitored as a function of time. A graph of ln(N₂O) vs. t gave a graph simlilar to the one in the lab manual. The trendline is Y= -0.01224 X + -2.902, with a y axis of ln(N₂O) and x of time. The correlation coefficient r is -0.9996, for a nearly perfect anticorrelation.

What is the numerical value of the rate constant, k?

What is the reaction order according to the above results?

Select one:

A.

First order

B. Unable to determine from the given data .

C.

Zero order

D.

Second order

Nitrous oxide, N₂O, undergoes decomposition on a gold surface at 900 °C, obeying the following stoichiometry: 2 N₂O _(g) --> 2 N_2(g) +O_{2 (g)}

The concentration of the reactant was monitored as a function of time. A graph of ln(N₂O) vs. t gave a graph simlilar to the one in the lab manual. The trendline is Y= -0.01255 X + -2.867, with a y axis of ln(N₂O) and x of time. The correlation coefficient r is -0.9994, for a nearly perfect anticorrelation.

What is the half-life for a first order reaction with k = -0.1783 1/min? t1/2=