Each of the three cells had different initial masses, and it was difficult to get each of the cells to have a similar initial mass. This affected the data by causing the results in the table to appear skewed. In order to properly address this issue, one could measure out a specific amount of solution to be placed into the dialysis tubing at the beginning of the experiment, so the initial masses can be as close as possible. Solute concentration has a major effect on the rate of osmosis. How does temperature affect the rate of osmosis? In order to test this, one could add one to two drops of dye into boiling water, ice cold water, and room temperature water to observe the speed at which osmosis occurs in different temperatures. 300mL of boiling water, ice water, and room temperature water would each be placed into three beakers of the same size. One drop of 1% Brilliant Blue dye would be added to each of the beakers, and the time it takes for the dye to dissipate in each of the beaker would be measured and
Each of the three cells had different initial masses, and it was difficult to get each of the cells to have a similar initial mass. This affected the data by causing the results in the table to appear skewed. In order to properly address this issue, one could measure out a specific amount of solution to be placed into the dialysis tubing at the beginning of the experiment, so the initial masses can be as close as possible. Solute concentration has a major effect on the rate of osmosis. How does temperature affect the rate of osmosis? In order to test this, one could add one to two drops of dye into boiling water, ice cold water, and room temperature water to observe the speed at which osmosis occurs in different temperatures. 300mL of boiling water, ice water, and room temperature water would each be placed into three beakers of the same size. One drop of 1% Brilliant Blue dye would be added to each of the beakers, and the time it takes for the dye to dissipate in each of the beaker would be measured and