How can the rate of reaction be calculated from a graph?
1 Answer
WARNING. This is a long answer.
You calculate the rate of reaction from the slope of a graph of concentration vs. time.
Assume we have a reaction 2A → 3B.
By definition, rate =
If you plot a graph of [A] vs. t and draw a line tangent to the graph, then rate = ½ × |slope| of the line (rate is always a positive number).
To find the instantaneous rate of reaction at a given time:
- Plot a graph of concentration of reactant against time of reaction. It might look like this.
-
I assume that each tick on the time axis represents 10 s. Mark a point on the graph that corresponds to a given time (say, 40 s).
-
Draw a straight line (green) tangent to the curve at that point.
-
Pick two convenient points on the tangent line, for example, where it crosses the horizontal and vertical axes (I assume the concentration has units of g/L).
-
Note the coordinates of these points, say (0 s, 50 g/L) and (52 s, 0 g/L).
-
Calculate the change in concentration.
#Δ[A] = [A_2] – [A_1]# = (0.0 – 50.0) g/L = -50.0 g/L -
Calculate the change in time
#Δt = t_2 – t_1# = (82 – 0) s = 82 s -
Calculate the slope.
slope =#(Δ[A])/(Δt) = ([A_2] –[A_1])/(t_2 –t_1) = (-50.0" g·L⁻¹")/(82" s")# = -0.610 g•L⁻¹s⁻¹ -
Calculate the rate.
rate = ½ × |slope| = ½ × |-0.610 g•L⁻¹s⁻¹| = 0.305 g•L⁻¹s⁻¹
