.
Introduction:
Osmosis is a net diffusion of water between
two solutions that differ in solute concentration and that are
separated by a
selectively permeable membrane.
Hypertonic solution – higher solute
concentration outside the cell.
Hypotonic solution – lower solute
concentration outside the cell.
Isotonic solution have the same solute
concentration outside and inside the cell.
Hypothesis:
Potato cells in 0%
solution of salt will swell up. Potato will gain weight, because
net movement
of water will be into the cells. Water moves down the concentration
gradient.
Potato cells in 2% and 3% solutions will
shrink. Water moves out of the cells to regions of greater
solute
concentration.
Potato cells in 1% solution will change
little in cell size or shape. The difference between solution
concentration and
potato concentration is small. So there is no big movement of
water.
Materials: Knife, potato, 4 salt solutions ( 0%, 1%, 2%, 3%), paper, razor blade.
Method:
Cut 12 plugs from similar potatoes. Remove the
ends of each plug and skin.
Make up four solutions of salt ( 0%, 1%, 2%,
3%). Weight the plug sets. Place plug sets into each solution and
continue to
measure or weight them at specified time intervals. Report mean
values only fo
measurements or weights. Determine the percent change in lenght or
weight for
the potato in each solution. Calculate the exact percent of salt in
the potato
cell from the graphed data.
Salt Solutions |
Initial weight (g) | Weight of plug sets after some time: |
Mean percentage change in weight | |||
12 min. |
22 min. |
40 min. |
52 min. |
|||
0% | 5.61 | 5.87 | 6.01 | 6.13 | 6.25 | 11.4% |
1% | 8.84 | 8.85 | 8.87 | 8.90 | 8.86 | 0.22% |
2% | 10.02 | 9.61 | 6.51 | 9.20 | 8.99 | -10.3% |
3% | 6.64 | 6.01 | 5.77 | 5.48 | 5.31 | -20% |
We can’t compare the changes in weight
using grams, because each plug set had different initial weight
before placing
them into salt solutions.
Conclusion and evaluation:
From the graphed data the percent of salt
in the potato cell is 1.1%. The original potato cell concentration
is 0.9%. The
error could be, because the water outside potato has influence on
weight and
not accurate measurement of mass by not exact scales, which showed
only one
decimal place.
If the concentration of water is not equal
across a potato cell membrane (concentration of water outside the
sell is more
or less than 0.9%), osmosis tends to
occur. Water will move osmotically to regions of greater solute
concentration
(from hypotonic to hypertonic solutions). If water concentration
outside and inside
the cell is equal, water shows no net osmotic movement from one to
the other –
isotonic solutions.
The experiment can be improved: Firstly, by
drying potato from water outside the potato. Secondly, by using
scales, which
have more accuracy.