4 0.300 0.200 0.200 0.0500 0.150 0.00625 1. Using this data, calculate the order of the reaction with respect to: i. A ii. B iii. the overall order 2. Write the rate law for the reaction. 3. Calculate the rate constant, k (with units & significant figures) for the reaction. 4. The reaction above was performed at 3 different temperatures. A graph of 1/T (K) vs. In (k) was created, producing a linear relationship and a trendline of y = - 872.89x + 5.022. Use the trendline to determine the activation energy of the reaction

Hello please answer this question attached below:

Transcribed Image Text:

Section II: Practice Problems At a single temperature, 4 trials for the generic reaction shown below were performed. The following data was obtained. A(g) + B(g) → C(g) + D(g) Practice Problem Data Table 1. [A] (M) 0.100 0.300 0.300 0.200 Trials 1 2 3 4 [B] (M) 0.0500 0.100 0.200 0.0500 Initial Rate (M/s) 0.00313 0.0375 0.150 0.00625 1. Using this data, calculate the order of the reaction with respect to: i. A ii. B iii. the overall order 2. Write the rate law for the reaction. 3. Calculate the rate constant, k (with units & significant figures) for the reaction. 4. The reaction above was performed at 3 different temperatures. A graph of 1/T (K) vs. In (k) was created, producing a linear relationship and a trendline of y = - 872.89x + 5.022. Use the trendline to determine the activation energy of the reaction.