Percentage difference decreases with SA: V ratio as the size of the cube increases, this correlation is referred to in the graph. The SA: V ratio of the 1.6cm2 cube is 8.3, with a percentage difference of 99%, whereas the 52.8cm2 cube has a ratio of 1.9 and a percentage difference of 32%. These results support the hypothesis and that the smallest cube had the most amount of diffusion in the 3 minutes. The diffusion that occurred in the experiment was passive transport (biologycorner, 2016.), which involves molecules moving from a high to low concentration down a gradient. In any type of diffusion, each type of molecule moves along its own
Percentage difference decreases with SA: V ratio as the size of the cube increases, this correlation is referred to in the graph. The SA: V ratio of the 1.6cm2 cube is 8.3, with a percentage difference of 99%, whereas the 52.8cm2 cube has a ratio of 1.9 and a percentage difference of 32%. These results support the hypothesis and that the smallest cube had the most amount of diffusion in the 3 minutes. The diffusion that occurred in the experiment was passive transport (biologycorner, 2016.), which involves molecules moving from a high to low concentration down a gradient. In any type of diffusion, each type of molecule moves along its own