Biology AS Edexcel Snab Revision
-
lifestyle-health-and-risk as19 主题
-
diet-and-health interpreting-data-on-risk-factors
-
diet-and-health treatment-of-cvd
-
diet-and-health energy-budgets-and-diet
-
diet-and-health monosaccharides
-
diet-and-health the-glycosidic-bond
-
diet-and-health disaccharides
-
diet-and-health polysaccharides
-
diet-and-health lipids-and-ester-bonds
-
diet-and-health reducing-risk-factors-of-cvd
-
diet-and-health practical-vitamin-c-content
-
the-circulatory-system the-need-for-a-circulatory-system
-
the-circulatory-system the-importance-of-water-in-transport
-
the-circulatory-system mammalian-heart-structure-and-function
-
the-circulatory-system blood-vessels-structure-and-function
-
the-circulatory-system cardiac-cycle
-
the-circulatory-system investigating-heart-rate
-
the-circulatory-system atherosclerosis
-
the-circulatory-system blood-clotting
-
diet-and-health cardiovascular-disease
-
diet-and-health interpreting-data-on-risk-factors
-
genes-and-health as28 主题
-
gas-exchange-cell-membranes-and-transport properties-of-gas-exchange-surfaces
-
gas-exchange-cell-membranes-and-transport ficks-law-of-diffusion
-
gas-exchange-cell-membranes-and-transport the-mammalian-lung
-
gas-exchange-cell-membranes-and-transport cell-membranes
-
gas-exchange-cell-membranes-and-transport practical-investigating-membrane-permeability
-
gas-exchange-cell-membranes-and-transport diffusion-and-facilitated-diffusion
-
gas-exchange-cell-membranes-and-transport active-transport
-
gas-exchange-cell-membranes-and-transport osmosis
-
nucleic-acids nucleotides-and-phosphodiester-bonds
-
nucleic-acids dna-structure
-
nucleic-acids rna-structure
-
proteins transcription
-
proteins translation
-
proteins nature-of-the-genetic-code
-
proteins amino-acids-and-peptide-bonds
-
proteins levels-of-protein-structure
-
proteins globular-proteins-structure-and-function
-
proteins fibrous-proteins-structure-and-function
-
proteins the-role-of-enzymes
-
proteins mode-of-enzyme-action
-
proteins enzyme-and-substrate-concentrations
-
inheritance dna-replication
-
inheritance mutations
-
inheritance inheritance-key-terms
-
inheritance pedigree-diagrams
-
inheritance monohybrid-crosses
-
inheritance chi-squared-test
-
inheritance genetic-screening
-
gas-exchange-cell-membranes-and-transport properties-of-gas-exchange-surfaces
-
voice-of-the-genome as19 主题
-
cell-structure-and-organisation cell-theory
-
cell-structure-and-organisation eukaryotic-cells
-
cell-structure-and-organisation prokaryotic-cells
-
cell-structure-and-organisation organisation-of-cells
-
cell-structure-and-organisation microscopy
-
cell-structure-and-organisation magnification-calculations
-
cell-structure-and-organisation recognising-organelles
-
cell-division the-cell-cycle
-
cell-division mitosis
-
cell-division practical-identifying-mitosis-in-plant-cells
-
reproduction-and-inheritance mammalian-gametes
-
reproduction-and-inheritance fertilisation-in-mammals
-
reproduction-and-inheritance genes-and-linkage
-
reproduction-and-inheritance meiosis-source-of-genetic-variation
-
differentiation-and-variation stem-cells
-
differentiation-and-variation stem-cells-in-medicine
-
differentiation-and-variation cell-differentiation
-
differentiation-and-variation epigenetics
-
differentiation-and-variation phenotypes-and-variation
-
cell-structure-and-organisation cell-theory
-
biodiversity-and-natural-resources as19 主题
-
biodiversity the-variety-of-life
-
biodiversity measuring-biodiversity-within-a-habitat
-
biodiversity comparing-biodiversity-between-habitats
-
biodiversity ecological-niches-and-adaptations
-
biodiversity natural-selection
-
biodiversity hardy-weinberg-equation
-
biodiversity reproductive-isolation
-
biodiversity classification
-
biodiversity conservation-of-biodiversity
-
resources-from-plants plant-cell-structure
-
resources-from-plants plant-stems
-
resources-from-plants importance-of-water-and-inorganic-ions-to-plants
-
resources-from-plants starch-and-cellulose-structure-and-function
-
resources-from-plants plant-fibres
-
resources-from-plants practical-identifying-tissue-types-within-stems
-
resources-from-plants tensile-strength-plant-fibres
-
resources-from-plants development-of-drug-testing
-
resources-from-plants antimicrobial-properties-of-plants
-
resources-from-plants sustainability-and-plant-materials
-
biodiversity the-variety-of-life
gas-exchange-cell-membranes-and-transport osmosis
Exam code:8BN0
Osmosis
-
All cells are surrounded by a cell surface membrane which is partially permeable
-
Water can move in and out of cells across the cell surface membrane by a process called osmosis
-
Osmosis is the net movement of water molecules from a region of lower solute concentration to a region of higher solute concentration through a partially permeable membrane
-
Water molecules move from a dilute solution to a concentrated solution
-
-
-
In doing this, water is moving down its concentration gradient, so osmosis is a specialised form of diffusion
-
Water molecules will move from an area of more free water molecules to an area of fewer free water molecules
-
Water molecules are considered ‘free’ when they are not surrounding substances in a solution; when a substance dissolves it becomes surrounded by water molecules; such water molecules are no longer free and cannot move through a membrane readily
-
-
-
Cell membranes are partially permeable, allowing small molecules like water through but not larger molecules such as solutes
-
Although water molecules are polar they can still pass through the bilayer because of their small size.
-
Osmosis is the movement of water molecules from a dilute to a concentrated solution through a partially permeable membrane
Osmosis is the movement of water molecules down their concentration gradient. Note that ‘water potential’ is a term used to describe the number of free water molecules present.
-
Osmosis is important because it constantly affects the cells of living organisms
-
Cell cytoplasm consists of water and dissolved substances
-
Cells lose or take on water depending on the number of free water molecules in their surroundings in comparison to their cytoplasm
-
-
When cells are placed in pure water, which has the highest possible number of free water molecules, water moves into the cells by osmosis and the cells swell
-
In animal cells this could lead to cell bursting
-
In plant cells the cell wall prevents bursting
-
-
When cells are placed into a solution that has a smaller number of free water molecules than their cytoplasm, e.g. a concentrated glucose solution, water moves out of the cells by osmosis and the cells shrink
-
In animal cells the entire cell shrivels
-
In plant cells the vacuole and cytoplasm shrink but the cell wall maintains the overall shape of the cell
-
Responses