Osmosis and Water Potential of a Potato Emma Macadam And Marc Brunton.
-
Upload
jody-blair -
Category
Documents
-
view
217 -
download
1
Transcript of Osmosis and Water Potential of a Potato Emma Macadam And Marc Brunton.
Osmosis and Water Potential of a PotatoEmma Macadam AndMarc Brunton
Hypothesis Our hypothesis is that the potato will
have the highest water potential than the butternut squash, sweet potato, and the apple, assuming it has the lowest sucrose concentration.
We predict the apple will have the lowest water potential, assuming it has the highest sucrose concentration.
The Experiment Our experiment tested the water potential
of a potato. There were six different sucrose solutions, with varying molarities.
By calculating the change in mass, we predicted the molarities of the various solutions. The larger the increase, the lower the molarity, and vice versa.
This is because water flows from low concentration to high concentration.
Data TableSolution Type
Blue Solution
Orange Solution
Yellow Solution
Red Solution
Green Solution
Purple Solution
Original mass of the potato(g)
5.3 4.7 4.8 4.8 4.4 5.4
New mass of the potato(g)
3.42 5.13 4.96 3.04 3.64 3.68
Percent change in mass of potato
35% decrease
8% increase
3% increase
37% decrease
17% decrease
32% decrease
Molarity of the Solutions Orange- 0.0M Yellow- 0.2M Green- 0.4M Purple- 0.6M Blue- 0.8M Red- 1.0MOrange had the highest increase, and therefore the lowest molarity. Red had the highest amount of decrease, and therefore the highest molarity.
Graph of the dataColor Molarity Percent Change
Orange 0 0.08
Yellow 0.2 0.03
Green 0.4 -0.17
Purple 0.6 -0.32
Blue 0.8 -0.35
Red 1 -0.37
0 0.2 0.4 0.6 0.8 1 1.2
-0.4
-0.3
-0.2
-0.1
0
0.1
0.2
Percent Change in Mass of Potato
Molarity
Pe
rce
nt
Ch
an
ge
Estimated Molarity of the potato We estimate the molarity of the potato
to be around 0.3M. This is because at 0.4M the mass decreased, but at 0.2M the mass increased. The middle value is a good estimate of what the molarity of the potato might be.
Water potential of the potato Water Potential= Pressure Potential +
Solute Potential Pressure Potential=0 Solute Potential= -iCRT i-ionization constant, C=Molarity, Gas
Constant (0.08321), T= Tempurature (Kelvin)
-(1)(0.3)(0.08321)(273+21)= -7.34
Conclusion The solution went from an area of low
concentration to an area of high concentration, causing the potato to shrink in a higher concentration solution, and expand in a lower concentration solution.
The Potato had a relatively high water potential, because it did not have to be in a very high concentration of sucrose before water started to leave it.
Xylem Tissue The Xylem tissue’s main function is to
transport water and nutrients from the roots, throughout the plant.
Water moves upwards from the roots to the leaves, because the water potential is more positive in the leaves than the roots. This allows water to flow from an area of low concentration to an area of high concentration.