Passive transport: Difference between revisions
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File:Blausen_0213_CellularDiffusion.png|Cellular diffusion | |||
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File:Osmotic_pressure_on_blood_cells_diagram.svg|Osmotic pressure on blood cells | |||
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Latest revision as of 04:46, 18 February 2025
Passive transport is a type of cellular transport that does not require energy to move substances across cell membranes. It is a naturally occurring phenomenon and relies on the inherent kinetic energy and natural entropy of molecules to diffuse across a membrane.
Types of Passive Transport[edit]
There are three main types of passive transport:
- Simple diffusion: This is the process by which solutes are moved along a concentration gradient in a solution or across a semipermeable membrane.
- Facilitated diffusion: This process uses transport proteins to move other ions and small molecules across the cell membrane.
- Osmosis: This is the movement of solvent molecules through a selectively permeable membrane into an area of higher solute concentration, aiming to equalize the solute concentrations on the two sides.
Factors Affecting Passive Transport[edit]
Several factors can affect the rate of passive transport, including:
- Temperature: Higher temperatures increase the energy and therefore the movement of the molecules, increasing the rate of diffusion.
- Concentration gradient: The greater the difference in concentration, the quicker the diffusion takes place.
- Size of the molecules: Smaller molecules diffuse more quickly than larger ones because smaller molecules move faster due to having less mass.
- Nature of the molecules: Polar molecules diffuse more slowly than non-polar molecules. Non-polar or lipid-soluble molecules pass through the membrane more easily than polar molecules.
Importance of Passive Transport[edit]
Passive transport is essential for many functions within the human body and in other living organisms. For example, it is necessary for the absorption of most of the water and nutrients cells need. It also helps to maintain the balance of various ions (both inside and outside the cells) which is necessary for nerve and muscle function.
