Cell in beaker Dialysis bag in beaker 2M Na 2M Cl 2M Nat 2M Cl 2M glucose 2M glucose 2M starch 2M starch Water Water 7M glucose 7M glucose Water Water 3. In this question, I'm asking you to connect lecture with 204 lab! The concentrations shown in the diagram are the concentrations of the solutions at the start of an experiment. a) At the start of the experiment, what is the total molarity of the solution in the dialysis bag and the Molarity of Stn n di agsis bag=M MAarity af soltion in cell M cell? b) Describe the direction of diffusion (into the bag, out of the bag, or no net movement) at the beginning of the experiment for each molecule in the dialysis bag above: Cell membrane thott alos small moiecutes like ions and glucose 91ucase will diffuse Ot hile the bag. the çoncentr atton is 9reoter inside the cell. t 0ass, ht not starch. Nat, C, h0, and starch will Stay insidde c) Describe the direction of diffusion (into the cell, out of the cell, or no net movement) at the beginning of the experiment for each molecule in the cell above (note: cell membrane is a phospholipid bilayer): Membrane that allows ony arophic Cell molecules to pos, hut blocs large The and small Polar ions. Polar molecules Ond intra solution has a Cellular jreater Concentrotion than the inside the cell, so water wil difkuse inside the celt none af 4. To function properly, cells must precisely regulate their internal ion concentrations. For example +he the internal and external concentrations of Na and Cl are shown in the table below. Explain mechanism by which a cell could maintain specific ion concentration gradients across their membranes. at Inside Outside molecuies [Na*] 10 mM 145 mM able to difupe Out of the cell. [CH 10 mM 110 mM

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please answer 3 b and c. i need a detailed explanation about each molecule including the water. thank you 

Cell in beaker
Dialysis bag in beaker
2M Na
2M Cl
2M Nat
2M Cl
2M glucose
2M glucose
2M starch
2M starch
Water
Water
7M glucose
7M glucose
Water
Water
3. In this question, I'm asking you to connect lecture with 204 lab! The concentrations shown in the
diagram are the concentrations of the solutions at the start of an experiment.
a) At the start of the experiment, what is the total molarity of the solution in the dialysis bag and the
Molarity of Stn n di agsis bag=M
MAarity af soltion in cell M
cell?
b) Describe the direction of diffusion (into the bag, out of the bag, or no net movement) at the beginning
of the experiment for each molecule in the dialysis bag above:
Cell membrane thott alos small moiecutes like ions
and glucose
91ucase will diffuse Ot hile
the bag. the çoncentr atton is 9reoter inside the cell.
t 0ass, ht not starch. Nat, C, h0, and
starch will Stay insidde
c) Describe the direction of diffusion (into the cell, out of the cell, or no net movement) at the beginning
of the experiment for each molecule in the cell above (note: cell membrane is a phospholipid bilayer):
Membrane that allows ony arophic
Cell
molecules to pos, hut blocs large
The
and small Polar
ions.
Polar molecules Ond
intra solution has a
Cellular
jreater Concentrotion than the inside
the cell, so water wil difkuse inside the celt none af
4. To function properly, cells must precisely regulate their internal ion concentrations. For example +he
the internal and external concentrations of Na and Cl are shown in the table below. Explain
mechanism by which a cell could maintain specific ion concentration gradients across their membranes.
at
Inside
Outside
molecuies
[Na*]
10 mM
145 mM
able to
difupe
Out of
the cell.
[CH
10 mM
110 mM
Transcribed Image Text:Cell in beaker Dialysis bag in beaker 2M Na 2M Cl 2M Nat 2M Cl 2M glucose 2M glucose 2M starch 2M starch Water Water 7M glucose 7M glucose Water Water 3. In this question, I'm asking you to connect lecture with 204 lab! The concentrations shown in the diagram are the concentrations of the solutions at the start of an experiment. a) At the start of the experiment, what is the total molarity of the solution in the dialysis bag and the Molarity of Stn n di agsis bag=M MAarity af soltion in cell M cell? b) Describe the direction of diffusion (into the bag, out of the bag, or no net movement) at the beginning of the experiment for each molecule in the dialysis bag above: Cell membrane thott alos small moiecutes like ions and glucose 91ucase will diffuse Ot hile the bag. the çoncentr atton is 9reoter inside the cell. t 0ass, ht not starch. Nat, C, h0, and starch will Stay insidde c) Describe the direction of diffusion (into the cell, out of the cell, or no net movement) at the beginning of the experiment for each molecule in the cell above (note: cell membrane is a phospholipid bilayer): Membrane that allows ony arophic Cell molecules to pos, hut blocs large The and small Polar ions. Polar molecules Ond intra solution has a Cellular jreater Concentrotion than the inside the cell, so water wil difkuse inside the celt none af 4. To function properly, cells must precisely regulate their internal ion concentrations. For example +he the internal and external concentrations of Na and Cl are shown in the table below. Explain mechanism by which a cell could maintain specific ion concentration gradients across their membranes. at Inside Outside molecuies [Na*] 10 mM 145 mM able to difupe Out of the cell. [CH 10 mM 110 mM
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