Question of the Day 12-6 How are diffusion and osmosis related?
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Transcript of Question of the Day 12-6 How are diffusion and osmosis related?
Question of the DayQuestion of the Day12-612-6
How are diffusion and osmosis related?
ReviewReview
Turgor PressureTurgor Pressure – – the pressure that exists inside a cell caused by waterthe pressure that exists inside a cell caused by water
High turgor pressure can cause animal cells to burst. Why?High turgor pressure can cause animal cells to burst. Why? They They do not have a cell wall.do not have a cell wall.
What would happen if there is low turgor pressure in plants?What would happen if there is low turgor pressure in plants? Causes them to wiltCauses them to wilt Then you water the plant and it will regain the pressure Then you water the plant and it will regain the pressure
and stand up straight and stand up straight
Reverse OsmosisReverse Osmosis
Lab
Page 6 questions
12-612-6
Question of the DayQuestion of the Day12-712-7
Explain the diagram below.
A couple hours
Iodine and water
Corn starch and water
Contractile VacuolesContractile Vacuoles – – Organelle that excretes excess water from Organelle that excretes excess water from
cellscellsUses ATPUses ATPUsually found in unicellular freshwater organisms.Usually found in unicellular freshwater organisms.This prevents them from bursting in a hypotonic This prevents them from bursting in a hypotonic
solution.solution.
Contractile vacuoleContractile vacuole
PlasmolysisPlasmolysis – –loss of turgor pressure in plant cell loss of turgor pressure in plant cell
due to loss of waterdue to loss of waterWhat happens to a plant during What happens to a plant during
plasmolysis? plasmolysis? The plant wiltsThe plant wiltsThe plants plasma membrane and cytoplasm The plants plasma membrane and cytoplasm
will shrink away from the cell wallwill shrink away from the cell wall
REVIEW:REVIEW:What will happen to an Elodea Leaf in a What will happen to an Elodea Leaf in a
hypertonic solution?hypertonic solution?Water will leave the cell…Water will leave the cell…
……which is called playsmolsis, which will cause the which is called playsmolsis, which will cause the plant leaves to wiltplant leaves to wilt
ReviewReview If we put Elodea leaves in a hypotonic If we put Elodea leaves in a hypotonic
solution, what happens? solution, what happens? Water will move into the cell….Water will move into the cell….
…….which will cause the cell to swell. If it’s an .which will cause the cell to swell. If it’s an animal cell it will….animal cell it will….
……burst, UNLESS the cell has a burst, UNLESS the cell has a Contractile vacuole to pump the water out. toContractile vacuole to pump the water out. to
Summary of Hypo/Hypertonic solution Summary of Hypo/Hypertonic solution changes on a RBC.changes on a RBC.
ReviewReview If the cell shrinks, it is in what type of solution?If the cell shrinks, it is in what type of solution? If the cell is at equilibrium with it’s If the cell is at equilibrium with it’s
environment, its in what type of solution?environment, its in what type of solution? If the cell swells, it’s in what type of solution?If the cell swells, it’s in what type of solution?
Water –90%
Salt – 10%
Water 95%
Salt 5%
Water 50%
Salt 50%
Water 50%
Salt 50%
Water 64%
Salt 36%
Water 44%
Salt 56%
pages 6-7 assignment
pages 6-7 assignment
Control egg pd 1 = 50.9 g
Control egg pd 2 = 60.8 g
Question of the DayQuestion of the Day12-812-8
How is the egg in lab analogous to a cell?
Nicole Cayo Kyle
Natalie Gilbert
Libby Justin Smigley
Kenny Evan Allan
Mary Ryan Freeman
Sinner Matt James Kamil
Lauren Allie Clowney
Victoria Max Ali Vince
Quick TalkQuick Talk
Hypertonic solution
Phospholipid
Diffusion
Contractile vacoule
Turgor pressure
Isotonic solution
Osmosis
Hypotonic molecule
Lyse
Cell membrane
Plasmolysis
Question of the DayQuestion of the Day12-912-9
1. What is passive transport (notes page 2)?
2. What’s an example?
Nicole Cayo Kyle
Natalie Gilbert
Libby Justin Smigley
Kenny Evan Allan
Mary Ryan Freeman
Sinner Matt James Kamil
Lauren Allie Clowney
Victoria Max Ali Vince
ObjectivesObjectivesDescribe how the structure of the Describe how the structure of the
plasma membrane allows it to function plasma membrane allows it to function as a regulatory structure and/or as a regulatory structure and/or protective barrier for a cell.protective barrier for a cell.
12-812-8
Selective PermeabilitySelective Permeability – – plasma membrane to allow some materials to plasma membrane to allow some materials to
pass while keeping others outpass while keeping others out
Why is selective permeability important?Why is selective permeability important?So the cell can allow important substances in So the cell can allow important substances in
(water, oxygen, glucose) and keep harmful (water, oxygen, glucose) and keep harmful substances out (bacteria).substances out (bacteria).
Passive TransportPassive Transport Passive TransportPassive Transport – –
movement of particles across membranes by movement of particles across membranes by diffusiondiffusion
This process uses NO ATPThis process uses NO ATP Molecules moving from hi concentration Molecules moving from hi concentration low low
concentrationconcentration
Facilitated DiffusionFacilitated Diffusion – – name for passive transport using proteins name for passive transport using proteins Does not use energy!!!Does not use energy!!!
Example:Example:Glucose going from high concentration outside Glucose going from high concentration outside
cell low concentration inside the cellcell low concentration inside the cell Why doesn’t this need energy?Why doesn’t this need energy?
Because it’s still along the concentration Because it’s still along the concentration gradientgradient
HOMEWORK
my.hrw.com – Chapter # 5 Self Check Quiz # 1 – 4 of these questions will appear on quiz (ignore #s 7 and 8)
1, 2, 3 assessment1, 2, 3 assessment
http://images.google.com/imgres?imgurl=http://http://images.google.com/imgres?imgurl=http://www.goldiesroom.org/Multimedia/Bio_Images/www.goldiesroom.org/Multimedia/Bio_Images/06%2520Transport/06%2520Transport/06%2520Osmosis.jpg&imgrefurl=http://06%2520Osmosis.jpg&imgrefurl=http://www.goldiesroom.org/Note%2520Packets/www.goldiesroom.org/Note%2520Packets/06%2520Transport/00%2520Transport--06%2520Transport/00%2520Transport--WHOLE.htm&usg=___jLC2fuTVg2WoENLx6stGwDLC2WHOLE.htm&usg=___jLC2fuTVg2WoENLx6stGwDLC28=&h=296&w=590&sz=32&hl=en&start=19&um=1&tbnid8=&h=296&w=590&sz=32&hl=en&start=19&um=1&tbnid=so3zloAhuKV4nM:&tbnh=68&tbnw=135&prev=/images=so3zloAhuKV4nM:&tbnh=68&tbnw=135&prev=/images%3Fq%3Dosmosis%26hl%3Den%26client%3Dfirefox-a%3Fq%3Dosmosis%26hl%3Den%26client%3Dfirefox-a%26rls%3Dorg.mozilla:en-US:official%26sa%3DN%26rls%3Dorg.mozilla:en-US:official%26sa%3DN%26um%3D1%26um%3D1
Egg Lab ReportEgg Lab Report
GraphGraph Must be coloredMust be colored Graph your starting Graph your starting
mass and then use mass and then use your final mass datayour final mass datawhich is in bluewhich is in blue
Add a column to you data table:Add a column to you data table: ““Percent Change in Mass”Percent Change in Mass”
((Initial Mass – Final Mass) / Initial ((Initial Mass – Final Mass) / Initial Mass) x 100 Mass) x 100
Calculate all the changes in mass for Calculate all the changes in mass for your eggyour egg
Starting Starting Mass Mass (grams)(grams)
Final Final Mass Mass (g)(g)
Change Change in mass in mass (g)(g)
% Change in Mass % Change in Mass
((Initial Mass – Final ((Initial Mass – Final Mass) / Initial Mass) x Mass) / Initial Mass) x
100100 Egg in Egg in shellshell ========== ======== ======
VinegarVinegar
Corn Corn SyrupSyrup
DistilledDistilled
Egg Lab ReportEgg Lab Report
Analysis of your Data:Analysis of your Data: Be sure you are using the terms we’ve discussed in Be sure you are using the terms we’ve discussed in
class in your explanation of your results.class in your explanation of your results. ExampleExample
What you should turn in:What you should turn in: Page 1 – DirectionsPage 1 – Directions Page 2 – Written lab reportPage 2 – Written lab report Page 3 – GraphPage 3 – Graph Page 4 – Your actual lab procedurePage 4 – Your actual lab procedure
Transport / carrier proteins – Transport / carrier proteins – proteins that assist facilitated diffusionproteins that assist facilitated diffusion
Ion channels – Ion channels – proteins transport ions from high concentration to proteins transport ions from high concentration to
lower concentrationlower concentration Ions like Na+, Ca+, etc are not soluble in lipids, Ions like Na+, Ca+, etc are not soluble in lipids,
so they must travel through proteins channelsso they must travel through proteins channels Ion channels are ion specific Ion channels are ion specific
Some channels are always open, some have gateSome channels are always open, some have gate Gates open from stimuli: stretching of cell Gates open from stimuli: stretching of cell
membrane electrical or chemical signalsmembrane electrical or chemical signals
Active TransportActive Transport – – transport of materials against a concentration transport of materials against a concentration
gradient – requires energygradient – requires energy ATPATP (adenosine tri-phosphate) – (adenosine tri-phosphate) –
the ENERGY molecule for the cellthe ENERGY molecule for the cell Breaks down from Breaks down from
ATP ATP ADP (Adenosine ADP (Adenosinedi-phosphate)di-phosphate)
Hydrolysis of the Hydrolysis of the phosphate releasesphosphate releasesenergyenergy
Active TransportActive Transport
Active Transport ExampleActive Transport Examplehttp://www.youtube.com/watch?http://www.youtube.com/watch?v=STzOiRqzzL4&feature=relatedv=STzOiRqzzL4&feature=related
Sodium-potassium PumpSodium-potassium Pump – – transfer protein exampletransfer protein example Transfers Na+ out and K+ inTransfers Na+ out and K+ in
Creates electrical gradient which is important for Creates electrical gradient which is important for nerve impulsesnerve impulses
http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter2/http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter2/animation__how_the_sodium_potassium_pump_works.htmlanimation__how_the_sodium_potassium_pump_works.html
Na+ / K+ PumpNa+ / K+ Pump
EndocytosisEndocytosis – – when a cell surrounds and takes in when a cell surrounds and takes in
material from the environmentmaterial from the environmentUses ATPUses ATP
EndocytosisEndocytosis
Pinocytosis – Pinocytosis – Transport of fluids into the cellTransport of fluids into the cell
Phagocytosis – Phagocytosis – Transfer of large particles / cells into the cellTransfer of large particles / cells into the cell
Phagocytes – Phagocytes – Cells that ingest bacteria / viruses and Cells that ingest bacteria / viruses and
lysosomes fuse w/ vesicle to destroy them lysosomes fuse w/ vesicle to destroy them before harm done before harm done
http://www.youtube.com/watch?v=1w10R9lv7eQhttp://www.youtube.com/watch?v=1w10R9lv7eQ
ExocytosisExocytosis – – when a cell expels materials to the when a cell expels materials to the
extracellular environmentextracellular environmentCell exports proteins, hormones and wastes Cell exports proteins, hormones and wastes
this waythis wayThis process uses ___This process uses ___ATPATP______
Endo / ExocytosisEndo / Exocytosis
Exocytosis and endocytosisExocytosis and endocytosishttp://www.youtube.com/watch?http://www.youtube.com/watch?
v=K7yku3sa4Y8v=K7yku3sa4Y8
The EndThe End
Warm Up 1-5Warm Up 1-5Draw and Label Each – hypotonic, Draw and Label Each – hypotonic,
hypertonic, isotonic, active transport, hypertonic, isotonic, active transport, diffusion: (Blue circles = cells)diffusion: (Blue circles = cells)
NaCl 25% NaCl 12%
Sugar 10%
NaCl 35%
Sugar 5%
NaCl 20%
ATP used
Dialysis Tubing LabDialysis Tubing LabGroups of two or three (NOT 4)Groups of two or three (NOT 4)Read through part 1 – create a flow chart Read through part 1 – create a flow chart
of the procedureof the procedure
Warm Up 1-6Warm Up 1-6
How is the dialysis tubing “selective”?How is the dialysis tubing “selective”?Get out your dialysis tubing lab.Get out your dialysis tubing lab.
Warm Up 1-6Warm Up 1-6
Get you Part II lab set up Get you Part II lab set up Make your observations – finish lab Make your observations – finish lab
questionsquestionsTurn in your lab.Turn in your lab.Today:Today:
Begin photosynthesis chapterBegin photosynthesis chapter
Warm Up 1-7Warm Up 1-7
Get your Part II lab set upGet your Part II lab set upMake your observationsMake your observationsFinish the lab questions – Turn in LabFinish the lab questions – Turn in Lab
Today:Today:Start Photosynthesis!!Start Photosynthesis!!
Hypo / Hypertonic SolutionsHypo / Hypertonic Solutions