Presentation is loading. Please wait.

Presentation is loading. Please wait.

Osmosis.

Published byJahiem Lynde Modified over 9 years ago

Similar presentations

Presentation on theme: "Osmosis."— Presentation transcript:

1 Osmosis

2 Osmosis… …is the diffusion of water molecules
…happens across a semi-permeable membrane

3 ONLY WATER Water is a small but extremely important molecule that makes up most of the liquid part of the cytoplasm in living things. Deals ONLY with the diffusion of WATER The molecules (in this case, water - not solute molecules) will tend to move from an area of high (water) concentration to an area of low(water)concentration until equilibrium is reached.

4

5 OSMOSIS: FACILITATED DIFFUSION OF WATER ACROSS A CELL MEMBRANE
Why would water molecules normally have a hard time getting across the cell membrane? The inside of a cell’s lipid bilayer is hydrophobic (water hating) Click me!

6 Aquaporins Most cells have special water channel proteins
Known as – Aquaporins Allow H2O to pass right through them by facilitated diffusion. This EXTREMELY important process is = OSMOSIS

7 By knowing the concentrations of solute and solvent on the inside and outside of a cell, we can predict the direction of osmosis and the result on the cell. Solutions on the outside of a cell can be described based on how they affect the cell hypERtonic hypOtonic isotonic

8 NOTE: (*tonic = solute. [High] solute means [low] water)
Solutions on the outside of a cell (in its environment) can be described based on how they affect the cell: Hypertonic “Above Strength” Cell Shrinks The solution outside the cell has a [higher] of solutes than inside Water moves OUT of cell Hypotonic “Below Strength” Cell Swells The solution outside the cell has a [lower] of solutes than inside Water moves INTO the cell Isotonic “Same Strength” Cell stays the same the solution outside the cell has the [SAME] of solutes than inside Water moves EQUALLY in/out of the cell NOTE: (*tonic = solute. [High] solute means [low] water) "HYPER" = HIGH; "HYPO" = LOW; "ISO" = equal or same.

9 VISUALIZE HYPERTONIC What will happen?
a) net movement of water _______of cell b) cell will ________ c) solution is hypertonic to the cell Cell with 2% solute, 98% solvent Beaker with 3% solute, 97% solvent H2O H2O H2O BEFORE AFTER

10 VISUALIZE HYPOTONIC What will happen?
a) net movement of water _______of cell b) cell will ________ c) solution is hypotonic to the cell Cell with 2% solute, 98% solvent Beaker with 1% solute, 988% solvent H2O H2O H2O BEFORE AFTER

11 VISUALIZE ISOTONIC What will happen a) no net movement
Cell with 2% solute concentration, 98% solvent Beaker = 2% solute, 98% solvent What will happen a) no net movement b) cell won’t change in size c) solution = isotonic to the cell

12 Common mistakes when discussing hyper-, hypo-, and isotonic solutions
The solutions are named for the concentrations of the SOLUTES The substance that moves to balance the solute concentration is the WATER The solutes to not “pull” or “suck” the water across the membrane – the water simply diffuses from where it is in high concentration to low concentration

13 Solute and solvent concentrations can be expressed as percentages of the entire solution.
When added together, the solute and solvent concentrations must equal 100%. A solution with a 10 % solute concentration has a 90% solvent concentration.

14 Let’s do some math! What is the solvent concentration of a solution with a 3% concentration of solute? What is the solvent concentration of a solution with a 15% concentration of glucose? What is the solute concentration of a solution with 98% solvent? What is the solute concentration of a solution with 75% water?

15 Osmotic Pressure Driven by differences in solute concentration, the net movement of water into or out of a cell produces a force known as osmotic pressure

16 Almost always hypertonic…
Because cells contain a variety of solutes such as: sugars, proteins, salts, etc. they are almost always hypertonic (*the environment = HYPOtonic!) to fresh water; as a result, a typical cell exposed to fresh water will tend to swell up quickly from the entering water. This may in fact cause an animal cell to swell like an overinflated balloon.

17 Plant cells contain a central vacuole which stores excess water - shrinking and swelling as water enters or exits the cell. Plant cells wouldn't generally burst thanks to their protective cell walls. In fact, most cells in large organisms are not in contact with fresh water on a regular basis - rather, they tend to be bathed in blood or other isotonic fluids which have solute concentrations approximately equal to themselves. Cells which are plump and rigid in hypotonic environments are called turgid; when a cell shrinks in a hypertonic environment this is called plasmolysis

18 Fill in… Conditions Water will… Environment is...
Solute concentration in the environment is equal to that in the cell Solute concentration in the environment is greater than the cell Solute concentration in the environment is less than the cell Move in and out in equal amounts No net movement Isotonic to the cell Cell is isotonic to its environment Move OUT of the cell The Cell Shrinks Hypertonic to the cell Cell is hypotonic to its environment Move INTO the cell The Cell Swells Hypotonic to the cell Cell is hypertonic to its environment

19 Some more practice!

20 Animal cell (blood cell)
Show what happens to plant and animal cells subjected to isotonic, hypertonic, and hypotonic solutions in the environment: Conditions Plant Cell (leaf cell) Animal cell (blood cell) Environment Before After Solute concentration in the environment is equal to that in the cell: Isotonic solution Solute concentration in the environment is greater than the cell: Hypertonic Solution Solute concentration in the environment is less than the cell: Hypotonic Solution

21

22 APPLY what you have learned about osmosis…
Why do doctor’s use a saline solution in an IV drip?

23 APPLY what you have learned about osmosis…
Why would salt kill plants?

24 APPLY what you have learned about osmosis…
Why do restaurants put out free salty snacks such as peanuts, pretzels or chips?

Download ppt "Osmosis."

Similar presentations

Agenda Attendance Quiz Review New stuff on Tonicity Be Tonicity Practice, Practice, Practice.

Agenda Attendance Quiz Review New stuff on Tonicity Be Tonicity Practice, Practice, Practice.
Lesson Overview 7.3 Cell Transport.

Lesson Overview 7.3 Cell Transport.
Copyright Pearson Prentice Hall

Copyright Pearson Prentice Hall
Lesson Overview 7.3 Cell Transport.

Lesson Overview 7.3 Cell Transport.
Osmosis.

Osmosis.
Chapter 7 Section 3 Cell Transport Part One- Passive Transport

Chapter 7 Section 3 Cell Transport Part One- Passive Transport
Unit 3B Cell Membrane & Transport. What is Cell Transport? Transport- the movement of materials between an organism and its environment Cellular Transport-

Unit 3B Cell Membrane & Transport. What is Cell Transport? Transport- the movement of materials between an organism and its environment Cellular Transport-
Chapter 5: Homeostasis and Transport NOTES. The Cell Membrane Regulates what enters and leaves a cell (gatekeeper) Provides protection and support Made.

Chapter 5: Homeostasis and Transport NOTES. The Cell Membrane Regulates what enters and leaves a cell (gatekeeper) Provides protection and support Made.
7-3 Cell Transport.

7-3 Cell Transport.
Lesson Overview Lesson Overview Cell Transport THINK ABOUT IT  When thinking about how cells move materials in and out, it can be helpful to think of.

Lesson Overview Lesson Overview Cell Transport THINK ABOUT IT  When thinking about how cells move materials in and out, it can be helpful to think of.
Lesson Overview 7.3 Cell Transport.

Lesson Overview 7.3 Cell Transport.
Agenda 9/29  Cell Organelle QUIZ  Pass back biomolecule quiz –Discuss corrections and retakes for those who failed to get to a 70 possibly.  Notes:

Agenda 9/29  Cell Organelle QUIZ  Pass back biomolecule quiz –Discuss corrections and retakes for those who failed to get to a 70 possibly.  Notes:
Cell Boundaries and Movement. Cell Barriers Cell membranes – Structure: contain a flexible lipid bilayer with imbedded protein molecules and carbohydrate.

Cell Boundaries and Movement. Cell Barriers Cell membranes – Structure: contain a flexible lipid bilayer with imbedded protein molecules and carbohydrate.
Osmosis. 2 Diffusion of water across a membrane Diffusion of water across a membrane Moves from high water potential (low solute) to low water potential.

Osmosis. 2 Diffusion of water across a membrane Diffusion of water across a membrane Moves from high water potential (low solute) to low water potential.
Lesson Overview 7.3 Cell Transport.

Lesson Overview 7.3 Cell Transport.
Lesson Overview 7.3 Cell Transport. Lesson Overview Lesson Overview Cell Transport Cell Membranes All cells contain a cell membrane that regulates what.

Lesson Overview 7.3 Cell Transport. Lesson Overview Lesson Overview Cell Transport Cell Membranes All cells contain a cell membrane that regulates what.
CELLULAR TRANSPORT. PASSIVE AND ACTIVE TRANSPORT REVIEW Doesn’t require energy inputs Solutes diffuse through a channel inside the protein’s interior.

CELLULAR TRANSPORT. PASSIVE AND ACTIVE TRANSPORT REVIEW Doesn’t require energy inputs Solutes diffuse through a channel inside the protein’s interior.
TRANSPORT THROUGH CELL MEMBRANES Diffusion and Osmosis.

TRANSPORT THROUGH CELL MEMBRANES Diffusion and Osmosis.
OSMOSIS & TONICITY SEC 4.3 PG 74-75. OSMOSIS: -a special case of diffusion involving water -water molecules move across a selectively permeable.

OSMOSIS & TONICITY SEC 4.3 PG OSMOSIS: -a special case of diffusion involving water -water molecules move across a selectively permeable.
Cellular Transport Unit 5. Passive Transport  Does not use energy 1. Diffusion Movement of particles from an area of higher concentration to an area.

Cellular Transport Unit 5. Passive Transport  Does not use energy 1. Diffusion Movement of particles from an area of higher concentration to an area.

Similar presentations

Ads by Google