11/21/21, 4:13 PM
PhysioEx Exercise 1 Activity 5
PhysioEx Lab Report
Exercise 1: Cell Transport Mechanisms and Permeability
Activity 5: Simulating Active Transport
Name: Kristian Subota
Date: 21 November 2021
Session ID: session-da746f4a-027d-e0b5-e46f-817bfcd9d1ac
Pre-lab Quiz Results
You scored 75% by answering 3 out of 4 questions correctly.
1 The movement of sodium and potassium maintained by the Na+-K+ pump
You correctly answered: requires energy and is against a concentration gradient.
2 The sodium-potassium pump is classified as a(n)
You correctly answered: antiporter.
3 The sodium-potassium pump moves _____ sodium ions and _____ potassium ions
simultaneously.
Your answer: 2, 3.
Correct answer: 3, 2.
4 Solutes that require active transport for movement might be too large to pass or might be
You correctly answered: lipid insoluble.
Experiment Results
Predict Questions
1 Predict Question 1: What do you think will result from these experimental conditions?
Your answer: No Na+ will be transported.
2 Predict Question 2: Do you think the addition of glucose carriers will affect the transport of
sodium or potassium?
Your answer: No, it will not affect the transport of either ion.
Stop & Think Questions
1 Why did the sodium transport stop before the transport was completed?
https://media.pearsoncmg.com/bc/bc_0media_ap/physioex/10/ex1/act5/
1/3
11/21/21, 4:13 PM
PhysioEx Exercise 1 Activity 5
Your answer: The potassium was depleted.
Correct answer: The ATP was depleted.
2 Why was the equilibrium for the solutes reached earlier?
You correctly answered: There were more pumps for transport.
Experiment Data
Run
Number
Solute
ATP (mM)
Start
Conc. L
(mM)
Start
Conc. R
(mM)
Pumps
Carriers
Rate
(mM/sec)
1
Na+ Cl-
1
9.000
0.000
500
---
0.0188
1
K+ Cl-
1
0.000
6.000
500
---
0.0125
1
Glucose
---
0.000
0.000
---
0
0.0000
2
Na+ Cl-
3
9.000
0.000
500
---
0.0025
2
K+ Cl-
3
0.000
6.000
500
---
0.0017
2
Glucose
---
0.000
0.000
---
0
0.0000
3
Na+ Cl-
3
9.000
0.000
500
---
0.0000
3
K+ Cl-
3
0.000
0.000
500
---
0.0000
3
Glucose
---
0.000
0.000
---
0
0.0000
4
Na+ Cl-
3
9.000
0.000
800
---
0.0042
4
K+ Cl-
3
0.000
6.000
800
---
0.0028
4
Glucose
---
0.000
0.000
---
0
0.0000
5
Na+ Cl-
3
9.000
0.000
800
---
0.0042
5
K+ Cl-
3
0.000
6.000
800
---
0.0028
5
Glucose
---
0.000
10.000
---
400
0.0028#
Post-lab Quiz Results
You scored 100% by answering 4 out of 4 questions correctly.
1 What happened when you increased the amount of ATP dispensed with the same
concentration of sodium and potassium on either side of the membrane?
You correctly answered: More ions were transported.
2 At what concentration of ATP were the sodium and potassium maximally transported?
You correctly answered: 3 mM ATP.
3 What was the effect of adding more Na+-K+ pumps to the simulated cell?
https://media.pearsoncmg.com/bc/bc_0media_ap/physioex/10/ex1/act5/
2/3
11/21/21, 4:13 PM
PhysioEx Exercise 1 Activity 5
You correctly answered: Transport of the ions was faster.
4 Describe the effect of adding glucose carriers to the sodium and potassium transport.
You correctly answered: There was no change in the transport rate because glucose is
transported independently.
Review Sheet Results
1 Describe the significance of using 9 mM sodium chloride inside the cell and 6 mM potassium
chloride outside the cell, instead of other concentration ratios.
Your answer:
Knowing that Na/K+ pumps work with a 3:2 ratio, it is ideal to use 9mM:6mM for a
concentration ratio.
2 Explain why there was no sodium transport even though ATP was present. How well did the
results compare with your prediction?
Your answer:
Sodium by itself will not make the pump work. Sodium and potassium are needed for Na/K+
pump.
3 Explain why the addition of glucose carriers had no effect on sodium or potassium
transport. How well did the results compare with your prediction?
Your answer:
Since glucose works independently and is NOT necessary, it does not help with sodium
transport.
4 Do you think glucose is being actively transported or transported by facilitated diffusion in
this experiment? Explain your answer.
Your answer:
It is transported by active transport in this experiment, due to the amount of ATP dispursed.
A carrier is needed to transport glucose across the cell membrane due to it's size, it is too
large, and lipid insoluble also.
https://media.pearsoncmg.com/bc/bc_0media_ap/physioex/10/ex1/act5/
3/3