Data Sheet: Activity - Osmosis
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Name
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Course
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Date
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Activity Data Code
Procedure I -Test Solution 1: Water
Complete the tablesand
questions below using your data and information found under the Background tab
Data
Table INote:
Difference in Final Volumes = Final Volume of Test Sol - Final Volume of Water
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Trial
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Starting
Volume of Test Solution
(L)
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Starting
Volume of Water
(L)
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Final
Volume of Test Solution
(L)
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Final
Volume of Water
(L)
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Difference
in
Final Volumes
(L)
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1
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1.28
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1.75
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1.51
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1.52
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-0.01
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2
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1.28
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2.00
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1.64
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1.64
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0
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Observations and Questions
[1] Given that the final
heights (and volumes) are the same for the water and test solution, what can
you conclude about the amount of solutes in these two solutions? Explain your
reasoning.
[2] As discussed in the
Background material, water is an important biological molecule. Do you expect
water to continue to flow across the semipermeable; lipid bilayer after osmotic
equilibrium is reached? Why or why not?
Procedure II -Test Solution 2: Guanine solution
Complete the tables and
questions below using your data and information found under the Background tab
Data
Table IINote:
Difference in Final Volumes = Final Volume of Test Sol - Final Volume of Water
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Trial
|
Starting
Volume of Test Solution
(L)
|
Starting
Volume of Water
(L)
|
Final
Volume of Test Solution
(L)
|
Final
Volume of Water
(L)
|
Difference
in
Final Volumes
(L)
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1
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1.28
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1.50
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1.82
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0.96
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0.86
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2
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1.28
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2.00
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2.07
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1.21
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0.86
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Observations and Questions
[3] Why did the height (and
volume) change in the test solution? What is the basis for the increase in the
volume in the test solution?
[4] What do you think would
happen if both starting volumes were the same? Test your hypothesis by doing a
data run. Explain your observation.
[5] Why is the difference in
final volumes the same for both trials?
Procedure III -Test Solution 3: Cytochrome C solution
Complete the table and
questions below using your data and information found under the Background tab
(see the Summary of Needed Formulas section) and Activity Form tab
Data
TableIIINote: Difference in Final
Volumes = Final Volume of Test Sol - Final Volume of Water
|
Trial
|
Starting
Volume of Test Solution
(L)
|
Starting
Volume of Water
(L)
|
Final
Volume of Test Solution
(L)
|
Final
Volume of Water
(L)
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Difference
in
Final Volumes
(L)
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1
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1.28
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2.00
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1.97
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1.31
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0.66
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2
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1.28
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2.25
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2.10
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1.43
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0.67
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Observations and Questions
[6] Based on your data and
observations from procedure II and procedure III, which solution has the
highest concentration? Explain your answer.
[7] Concentration
Calculation: Using your Trial 1 data from procedure II and procedure III, and
the known concentration of guanine (see Activity Form tab), calculate the
concentration of the cytochrome c solution. Hint: See the Summary of Needed
Formulas section under the Background tab and information found under the
Activity Form tab.
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