SlideShare a Scribd company logo

OSMOSIS- BIPIN.S

Download as PPTX, PDF
Dadu Brutally Innocent
Dadu Brutally Innocent
1 of 25
BIPIN.S NATURAL SCIENCE REG No.13971012
Osmosis is the spontaneous net movement of solvent molecules through a partially permeable membrane into a region of higher solute concentration, in the direction that tends to equalize the solute concentrations on the two sides. Osmosis provides the primary means by which water is transported into and out of cells Difference in concentration between solutions on either side of semi permeable membrane called Osmotic gradient
Concentration gradient Concentration Gradient - change in the concentration of a substance from one area to another. Osmosis Osmosis is the movement of WATER across a semi-permeable membrane At first the concentration of solute is very high on the left. But over time, the water moves across the semi-permeable membrane and dilutes the particles.
Osmosis – A Special kind of Diffusion Diffusion of water across a selectively permeable membrane (a barrier that allows some substances to pass but not others). The cell membrane is such a barrier. Small molecules pass through – ex: water Large molecules can’t pass through – ex: proteins and complex carbohydrates
Hypotonic – The solution on one side of a membrane where the solute concentration is less than on the other side. Hypotonic Solutions contain a low concentration of solute relative to another solution.
Over time molecules will move across the membrane until the concentration of solutes is equal on both sides. This type of solution is called ISOTONIC.
• Cytoplasm is a solution of water and solids (solutes dissolved in the water). • Water moves into and out of cells because of the different concentrations of the solutes. • Different kinds of cells react differently depending on the solution they are in. • Below are examples of red blood cells in different types of solutions and shows what happened to the red blood cells.
There is a greater concentration of free water molecules outside the cell than inside 11 so water diffuses into the cell by osmosis and the cell swells up
cell wall cytoplasm and cell membrane vacuole The cell absorbs water by osmosis .... ....but the cell wall stops the cell expanding any more 18
For osmosis we talk about the potential water molecules have to move – the OSMOTIC POTENTIAL. Distilled water has the highest potential (zero). When water has another substance dissolved in it, the water molecules have less potential to move. The osmotic potential is NEGATIVE.
The osmotic potential of a cell is known as its WATER POTENTIAL. For animal cells, the water potential is the osmotic potential of the cytoplasm.
An animal cell with water potential –50 is placed in a solution…
If the osmotic potential of the solution is less negative than the water potential of the cytoplasm(the solution is hypotonic), net endosmosis will occur, i.e. water will move into the cell from the solution. The result will be haemolysis (the cell will burst) Water potential of cytoplasm = -50 Osmotic potential of solution= -20
If the osmotic potential of the solution is more negative than the water potential of the cytoplasm (the solution is hypertonic), net exosmosis will occur. The result will be crenation (the cell will shrivel up) Water potential of cytoplasm= -50 Osmotic potential of solution = -80
If the osmotic potential of the solution is the same as the water potential of the cytoplasm (the solution is isotonic), there will be no net osmosis. Water potential of cytoplasm= -50 Osmotic potential of solution= -50
In animal cells, the water potential is equal to the osmotic potential of the cytoplasm, but this is different in plant cells… Plant cells have a cell wall, which exerts an inward pressure when the cell is turgid. This is known as the pressure potential. The water potential of an animal cell is equal to the osmotic potential of the cytoplasm plus the cell wall pressure: W.P.= O.P. + P.P.
A plant cell with water potential –50 is placed in a solution…
If the solution is hypotonic, net endosmosis occurs and the cell becomes fully turgid. Water potential of cytoplasm = -50 Osmotic potential of solution = -20
If the solution is hypertonic, net exosmosis occurs and causes plasmolysis (the cell membrane pulls away from the cell wall. The cell wall stays intact). Water potential of cytoplasm = -50 Osmotic potential of solution = -80
If the solution is isotonic, no net osmosis occurs. The cell is not plasmolysed, but it is not fully turgid either. Water potential of cytoplasm = -50 Osmotic potential of solution = -50
Conclusion: Osmosis is a vital process in biological systems, as biological membranes are semi permeable. Osmosis is responsible for the ability of plant roots to draw water from the soil. Osmosis is a vital process in both plants and animals to maintain their own life process.
Reference: Borg, Frank (2003). "What is osmosis? Explanation and understanding of a physical phenomenon“ Wiley international publications. Kramer, Eric; David Myers. "Osmosis is not driven by water dilution". Trends in Plant Science 18 (4): 195–197. Kosinski, R. J. "Challenging misconceptions about osmosis.". Association for Biology Laboratory Education 30: 63– 87.
OSMOSIS- BIPIN.S

Recommended

OSMOSIS
OSMOSISOSMOSIS
OSMOSIS
Dadu Brutally Innocent
 
Passive and Active Transport
Passive and Active TransportPassive and Active Transport
Passive and Active Transport
bethgombert
 
Passive Transport
Passive TransportPassive Transport
Passive Transport
Nathan Arnold
 
Biology - Osmosis and Tonicity
Biology - Osmosis and TonicityBiology - Osmosis and Tonicity
Biology - Osmosis and Tonicity
Emma Atman
 
Passive transport
Passive transportPassive transport
Passive transport
Nafly Hussain
 
Osmosis
Osmosis Osmosis
Osmosis
Ameer Azeez
 
Plasma membrane
Plasma membranePlasma membrane
Plasma membrane
Shri Shankaracharya College, Bhilai,Junwani
 
Osmosis
OsmosisOsmosis
Osmosis
Sohel Rana
 

Recommended

OSMOSIS
OSMOSISOSMOSIS
OSMOSIS
Dadu Brutally Innocent
 
Passive and Active Transport
Passive and Active TransportPassive and Active Transport
Passive and Active Transport
bethgombert
 
Passive Transport
Passive TransportPassive Transport
Passive Transport
Nathan Arnold
 
Biology - Osmosis and Tonicity
Biology - Osmosis and TonicityBiology - Osmosis and Tonicity
Biology - Osmosis and Tonicity
Emma Atman
 
Passive transport
Passive transportPassive transport
Passive transport
Nafly Hussain
 
Osmosis
Osmosis Osmosis
Osmosis
Ameer Azeez
 
Plasma membrane
Plasma membranePlasma membrane
Plasma membrane
Shri Shankaracharya College, Bhilai,Junwani
 
Osmosis
OsmosisOsmosis
Osmosis
Sohel Rana
 
Passive Transport Notes
Passive Transport NotesPassive Transport Notes
Passive Transport Notes
ericchapman81
 
Osmosis
OsmosisOsmosis
Osmosis
DhirendraKumar175
 
Osmosis
OsmosisOsmosis
Osmosis
Praveen Garg
 
PASSIVE TRANSPORT SYSTEM
PASSIVE TRANSPORT SYSTEMPASSIVE TRANSPORT SYSTEM
PASSIVE TRANSPORT SYSTEM
Ruhid Hasan
 
Active and passive transport
Active and passive transportActive and passive transport
Active and passive transport
stewart_j
 
Osmosis and Osmotic Pressure
Osmosis and Osmotic PressureOsmosis and Osmotic Pressure
Osmosis and Osmotic Pressure
Fawad Mueen Arbi
 
Diffusion
DiffusionDiffusion
Diffusion
Mirza Salman Baig
 
Water and its properties
Water and its propertiesWater and its properties
Water and its properties
Hu--da
 
TRANSPORT ACROSS CELL MEMBRANE
TRANSPORT ACROSS CELL MEMBRANETRANSPORT ACROSS CELL MEMBRANE
TRANSPORT ACROSS CELL MEMBRANE
Dr Nilesh Kate
 
Transport across cell membranes
Transport across cell membranesTransport across cell membranes
Transport across cell membranes
Ola Elgaddar
 
Transportation in plants
Transportation in plantsTransportation in plants
Transportation in plants
Kushal Pandey
 
Endocytosis
EndocytosisEndocytosis
Endocytosis
Ifrah Ishaq
 
Transport mechanism
Transport mechanismTransport mechanism
Transport mechanism
jelohagos
 
Osmosis
OsmosisOsmosis
Osmosis
circle4biology
 
Structure and properties of water
Structure and properties of waterStructure and properties of water
Structure and properties of water
AISWARYA BALAKRISHNAN
 
Structure and function of plasma membrane 2
Structure and function of plasma membrane 2Structure and function of plasma membrane 2
Structure and function of plasma membrane 2
ICHHA PURAK
 
Active transport
Active transport Active transport
Active transport
Anu Priya
 
Active Transport New
Active Transport NewActive Transport New
Active Transport New
wraithxjmin
 
Exocytosis and Endocytosis {Best one}
Exocytosis and Endocytosis {Best one}Exocytosis and Endocytosis {Best one}
Exocytosis and Endocytosis {Best one}
abdelrahman_asar
 
Passive transport
Passive transportPassive transport
Passive transport
eliebengston
 
фотохостинг
фотохостингфотохостинг
фотохостинг
Юлия Рыбачек
 
Alexander alekhine campeão mundial em portugual
Alexander alekhine campeão mundial em portugualAlexander alekhine campeão mundial em portugual
Alexander alekhine campeão mundial em portugual
Remulo Aguiar Freitas
 

More Related Content

What's hot

Active and passive transport
Active and passive transportActive and passive transport
Active and passive transport
stewart_j
 
Active Transport New
Active Transport NewActive Transport New
Active Transport New
wraithxjmin
 

What's hot (20)

Passive Transport Notes
Passive Transport NotesPassive Transport Notes
Passive Transport Notes
 
Osmosis
OsmosisOsmosis
Osmosis
 
Osmosis
OsmosisOsmosis
Osmosis
 
PASSIVE TRANSPORT SYSTEM
PASSIVE TRANSPORT SYSTEMPASSIVE TRANSPORT SYSTEM
PASSIVE TRANSPORT SYSTEM
 
Active and passive transport
Active and passive transportActive and passive transport
Active and passive transport
 
Osmosis and Osmotic Pressure
Osmosis and Osmotic PressureOsmosis and Osmotic Pressure
Osmosis and Osmotic Pressure
 
Diffusion
DiffusionDiffusion
Diffusion
 
Water and its properties
Water and its propertiesWater and its properties
Water and its properties
 
TRANSPORT ACROSS CELL MEMBRANE
TRANSPORT ACROSS CELL MEMBRANETRANSPORT ACROSS CELL MEMBRANE
TRANSPORT ACROSS CELL MEMBRANE
 
Transport across cell membranes
Transport across cell membranesTransport across cell membranes
Transport across cell membranes
 
Transportation in plants
Transportation in plantsTransportation in plants
Transportation in plants
 
Endocytosis
EndocytosisEndocytosis
Endocytosis
 
Transport mechanism
Transport mechanismTransport mechanism
Transport mechanism
 
Osmosis
OsmosisOsmosis
Osmosis
 
Structure and properties of water
Structure and properties of waterStructure and properties of water
Structure and properties of water
 
Structure and function of plasma membrane 2
Structure and function of plasma membrane 2Structure and function of plasma membrane 2
Structure and function of plasma membrane 2
 
Active transport
Active transport Active transport
Active transport
 
Active Transport New
Active Transport NewActive Transport New
Active Transport New
 
Exocytosis and Endocytosis {Best one}
Exocytosis and Endocytosis {Best one}Exocytosis and Endocytosis {Best one}
Exocytosis and Endocytosis {Best one}
 
Passive transport
Passive transportPassive transport
Passive transport
 

Viewers also liked

Alexander alekhine campeão mundial em portugual
Alexander alekhine campeão mundial em portugualAlexander alekhine campeão mundial em portugual
Alexander alekhine campeão mundial em portugual
Remulo Aguiar Freitas
 
παπαδιαμαντησ
παπαδιαμαντησπαπαδιαμαντησ
παπαδιαμαντησ
livaresi
 
сравнительный тест
сравнительный тестсравнительный тест
сравнительный тест
Vladuk
 
King assistive technology
King assistive technologyKing assistive technology
King assistive technology
mskdrking
 
Tamay manuel-excel
Tamay manuel-excelTamay manuel-excel
Tamay manuel-excel
L Tamay
 
Olimpiyskie 22 igry_sochi_2014
Olimpiyskie 22 igry_sochi_2014Olimpiyskie 22 igry_sochi_2014
Olimpiyskie 22 igry_sochi_2014
Antshil
 
ANIMALIA
ANIMALIAANIMALIA
ANIMALIA
Riska Daenangsari
 

Viewers also liked (20)

фотохостинг
фотохостингфотохостинг
фотохостинг
 
Alexander alekhine campeão mundial em portugual
Alexander alekhine campeão mundial em portugualAlexander alekhine campeão mundial em portugual
Alexander alekhine campeão mundial em portugual
 
παπαδιαμαντησ
παπαδιαμαντησπαπαδιαμαντησ
παπαδιαμαντησ
 
World of learning
World of learningWorld of learning
World of learning
 
сравнительный тест
сравнительный тестсравнительный тест
сравнительный тест
 
King assistive technology
King assistive technologyKing assistive technology
King assistive technology
 
Ketahanan nasional dan geo strategi ina tugas
Ketahanan nasional dan geo strategi ina tugasKetahanan nasional dan geo strategi ina tugas
Ketahanan nasional dan geo strategi ina tugas
 
Belgihy
BelgihyBelgihy
Belgihy
 
Tamay manuel-excel
Tamay manuel-excelTamay manuel-excel
Tamay manuel-excel
 
The Origins of Art
The Origins of ArtThe Origins of Art
The Origins of Art
 
Olimpiyskie 22 igry_sochi_2014
Olimpiyskie 22 igry_sochi_2014Olimpiyskie 22 igry_sochi_2014
Olimpiyskie 22 igry_sochi_2014
 
Gretel showcase
Gretel showcaseGretel showcase
Gretel showcase
 
Memories of 2013
Memories of 2013Memories of 2013
Memories of 2013
 
ANIMALIA
ANIMALIAANIMALIA
ANIMALIA
 
Anavryta Unesco 2015
Anavryta Unesco 2015Anavryta Unesco 2015
Anavryta Unesco 2015
 
Court Extract
Court ExtractCourt Extract
Court Extract
 
How to Invest in Forestry - Avacade Investments
How to Invest in Forestry - Avacade InvestmentsHow to Invest in Forestry - Avacade Investments
How to Invest in Forestry - Avacade Investments
 
Simplylife Banking Solutions - For Life's Important Moments
Simplylife Banking Solutions - For Life's Important MomentsSimplylife Banking Solutions - For Life's Important Moments
Simplylife Banking Solutions - For Life's Important Moments
 
Neural signal processing by mustafa rasheed & zeena saadon & walaa kahtan 2015
Neural signal processing by mustafa rasheed & zeena saadon & walaa kahtan 2015Neural signal processing by mustafa rasheed & zeena saadon & walaa kahtan 2015
Neural signal processing by mustafa rasheed & zeena saadon & walaa kahtan 2015
 
Developments Under the Clean Air Act Implications and Ramifications
Developments Under the Clean Air Act Implications and RamificationsDevelopments Under the Clean Air Act Implications and Ramifications
Developments Under the Clean Air Act Implications and Ramifications
 

Similar to OSMOSIS- BIPIN.S

Cell membrane and Osmosis
Cell membrane and OsmosisCell membrane and Osmosis
Cell membrane and Osmosis
hs00at
 
Passive transport
Passive transportPassive transport
Passive transport
eruder
 
Cell biology lecture 6 oct 2021
Cell biology lecture 6 oct 2021Cell biology lecture 6 oct 2021
Cell biology lecture 6 oct 2021
zoeshah
 
Passive Transport
Passive TransportPassive Transport
Passive Transport
tbowde1
 
Chapter 5 - Cell Transport
Chapter 5 - Cell TransportChapter 5 - Cell Transport
Chapter 5 - Cell Transport
cavalierem
 
Water potential (osmosis) extension
Water potential (osmosis) extensionWater potential (osmosis) extension
Water potential (osmosis) extension
clairebloom
 

Similar to OSMOSIS- BIPIN.S (20)

lecture 2.pptx
lecture 2.pptxlecture 2.pptx
lecture 2.pptx
 
Cell membrane and Osmosis
Cell membrane and OsmosisCell membrane and Osmosis
Cell membrane and Osmosis
 
Chapter 3 Movement Of Substances
Chapter 3 Movement Of SubstancesChapter 3 Movement Of Substances
Chapter 3 Movement Of Substances
 
Biology - Osmosis and Tonicity
Biology - Osmosis and TonicityBiology - Osmosis and Tonicity
Biology - Osmosis and Tonicity
 
Osmosis
OsmosisOsmosis
Osmosis
 
Osmosis
OsmosisOsmosis
Osmosis
 
Passive transport
Passive transportPassive transport
Passive transport
 
movement of substances
movement of substancesmovement of substances
movement of substances
 
Cell biology lecture 6 oct 2021
Cell biology lecture 6 oct 2021Cell biology lecture 6 oct 2021
Cell biology lecture 6 oct 2021
 
CELL DRINKING, CELL EATING.ppt
CELL DRINKING, CELL EATING.pptCELL DRINKING, CELL EATING.ppt
CELL DRINKING, CELL EATING.ppt
 
Passive Transport
Passive TransportPassive Transport
Passive Transport
 
5. water -importance and significance-2014 M.Sc -E.pptx
5. water -importance and significance-2014 M.Sc -E.pptx5. water -importance and significance-2014 M.Sc -E.pptx
5. water -importance and significance-2014 M.Sc -E.pptx
 
Chapter 5 - Cell Transport
Chapter 5 - Cell TransportChapter 5 - Cell Transport
Chapter 5 - Cell Transport
 
Diffusion.pptx
Diffusion.pptxDiffusion.pptx
Diffusion.pptx
 
Plant Water Relation
Plant Water Relation Plant Water Relation
Plant Water Relation
 
Biology Topic three
Biology Topic threeBiology Topic three
Biology Topic three
 
Osmosis Definition.docx
Osmosis Definition.docxOsmosis Definition.docx
Osmosis Definition.docx
 
Cell membrane
Cell membraneCell membrane
Cell membrane
 
Types of movement across the cell membrane
Types of movement across the cell membraneTypes of movement across the cell membrane
Types of movement across the cell membrane
 
Water potential (osmosis) extension
Water potential (osmosis) extensionWater potential (osmosis) extension
Water potential (osmosis) extension
 

More from Dadu Brutally Innocent

More from Dadu Brutally Innocent (12)

Seminar
SeminarSeminar
Seminar
 
Liver 2
Liver 2Liver 2
Liver 2
 
Resoures centers for teaching learning process
Resoures centers for teaching learning processResoures centers for teaching learning process
Resoures centers for teaching learning process
 
Hybrid variety of plants
Hybrid variety of plantsHybrid variety of plants
Hybrid variety of plants
 
powerpoint presentation on topic photosynthesis
powerpoint presentation on topic photosynthesispowerpoint presentation on topic photosynthesis
powerpoint presentation on topic photosynthesis
 
online assignment
online assignmentonline assignment
online assignment
 
Multimedia as a Technology Enhanced Communication Devices in Teaching Life ...
Multimedia as a Technology Enhanced Communication Devices in Teaching Life ...Multimedia as a Technology Enhanced Communication Devices in Teaching Life ...
Multimedia as a Technology Enhanced Communication Devices in Teaching Life ...
 
MODERN TRENDS IN CURRICULAR MOVEMENTS IN STATE LEVEL IN TEACHING NATURAL SCIE...
MODERN TRENDS IN CURRICULAR MOVEMENTS IN STATE LEVEL IN TEACHING NATURAL SCIE...MODERN TRENDS IN CURRICULAR MOVEMENTS IN STATE LEVEL IN TEACHING NATURAL SCIE...
MODERN TRENDS IN CURRICULAR MOVEMENTS IN STATE LEVEL IN TEACHING NATURAL SCIE...
 
Powepoint presentation on classification
Powepoint presentation on classificationPowepoint presentation on classification
Powepoint presentation on classification
 
Power point presentation on topic Classification -Arunima V.S
Power point presentation on topic Classification -Arunima V.SPower point presentation on topic Classification -Arunima V.S
Power point presentation on topic Classification -Arunima V.S
 
OSMOSIS -BIPIN S
OSMOSIS -BIPIN SOSMOSIS -BIPIN S
OSMOSIS -BIPIN S
 
Smoke
SmokeSmoke
Smoke
 

OSMOSIS- BIPIN.S

  • 1. BIPIN.S NATURAL SCIENCE REG No.13971012
  • 2. Osmosis is the spontaneous net movement of solvent molecules through a partially permeable membrane into a region of higher solute concentration, in the direction that tends to equalize the solute concentrations on the two sides. Osmosis provides the primary means by which water is transported into and out of cells Difference in concentration between solutions on either side of semi permeable membrane called Osmotic gradient
  • 3. Concentration gradient Concentration Gradient - change in the concentration of a substance from one area to another. Osmosis Osmosis is the movement of WATER across a semi-permeable membrane At first the concentration of solute is very high on the left. But over time, the water moves across the semi-permeable membrane and dilutes the particles.
  • 4.
  • 5. Osmosis – A Special kind of Diffusion Diffusion of water across a selectively permeable membrane (a barrier that allows some substances to pass but not others). The cell membrane is such a barrier. Small molecules pass through – ex: water Large molecules can’t pass through – ex: proteins and complex carbohydrates
  • 6. Hypotonic – The solution on one side of a membrane where the solute concentration is less than on the other side. Hypotonic Solutions contain a low concentration of solute relative to another solution.
  • 7. Over time molecules will move across the membrane until the concentration of solutes is equal on both sides. This type of solution is called ISOTONIC.
  • 8. • Cytoplasm is a solution of water and solids (solutes dissolved in the water). • Water moves into and out of cells because of the different concentrations of the solutes. • Different kinds of cells react differently depending on the solution they are in. • Below are examples of red blood cells in different types of solutions and shows what happened to the red blood cells.
  • 9.
  • 10. There is a greater concentration of free water molecules outside the cell than inside 11 so water diffuses into the cell by osmosis and the cell swells up
  • 11. cell wall cytoplasm and cell membrane vacuole The cell absorbs water by osmosis .... ....but the cell wall stops the cell expanding any more 18
  • 12. For osmosis we talk about the potential water molecules have to move – the OSMOTIC POTENTIAL. Distilled water has the highest potential (zero). When water has another substance dissolved in it, the water molecules have less potential to move. The osmotic potential is NEGATIVE.
  • 13. The osmotic potential of a cell is known as its WATER POTENTIAL. For animal cells, the water potential is the osmotic potential of the cytoplasm.
  • 14. An animal cell with water potential –50 is placed in a solution…
  • 15. If the osmotic potential of the solution is less negative than the water potential of the cytoplasm(the solution is hypotonic), net endosmosis will occur, i.e. water will move into the cell from the solution. The result will be haemolysis (the cell will burst) Water potential of cytoplasm = -50 Osmotic potential of solution= -20
  • 16. If the osmotic potential of the solution is more negative than the water potential of the cytoplasm (the solution is hypertonic), net exosmosis will occur. The result will be crenation (the cell will shrivel up) Water potential of cytoplasm= -50 Osmotic potential of solution = -80
  • 17. If the osmotic potential of the solution is the same as the water potential of the cytoplasm (the solution is isotonic), there will be no net osmosis. Water potential of cytoplasm= -50 Osmotic potential of solution= -50
  • 18. In animal cells, the water potential is equal to the osmotic potential of the cytoplasm, but this is different in plant cells… Plant cells have a cell wall, which exerts an inward pressure when the cell is turgid. This is known as the pressure potential. The water potential of an animal cell is equal to the osmotic potential of the cytoplasm plus the cell wall pressure: W.P.= O.P. + P.P.
  • 19. A plant cell with water potential –50 is placed in a solution…
  • 20. If the solution is hypotonic, net endosmosis occurs and the cell becomes fully turgid. Water potential of cytoplasm = -50 Osmotic potential of solution = -20
  • 21. If the solution is hypertonic, net exosmosis occurs and causes plasmolysis (the cell membrane pulls away from the cell wall. The cell wall stays intact). Water potential of cytoplasm = -50 Osmotic potential of solution = -80
  • 22. If the solution is isotonic, no net osmosis occurs. The cell is not plasmolysed, but it is not fully turgid either. Water potential of cytoplasm = -50 Osmotic potential of solution = -50
  • 23. Conclusion: Osmosis is a vital process in biological systems, as biological membranes are semi permeable. Osmosis is responsible for the ability of plant roots to draw water from the soil. Osmosis is a vital process in both plants and animals to maintain their own life process.
  • 24. Reference: Borg, Frank (2003). "What is osmosis? Explanation and understanding of a physical phenomenon“ Wiley international publications. Kramer, Eric; David Myers. "Osmosis is not driven by water dilution". Trends in Plant Science 18 (4): 195–197. Kosinski, R. J. "Challenging misconceptions about osmosis.". Association for Biology Laboratory Education 30: 63– 87.