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Making a cup of tea involves diffusion, which is the passive movement of particles from an area of high concentration to an area of low concentration. Osmosis is the diffusion of water across a selectively permeable membrane, which is not directly involved in making tea. Active transport involves the movement of particles against a concentration gradient and requires energy, which is not typically needed for making tea.
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Why does osmosis happen faster at warmer temperatures?
Warmer temperatures increase the kinetic energy of molecules, including water molecules. This causes them to move more rapidly, leading to faster diffusion across a semipermeable membrane during osmosis. Additionally, warmer temperatures can weaken the bonds in the membrane, making it easier for water to pass through.
How do substances move in diffusion and osmosis?
Diffusion- This is the movement of substances from an area of high concentration to low concentration. Diffusion can be sped up by heat and by increasing the concentration of the diffusing substances. Osmosis-This is the movement of water down a concentration gradient across a semi-permeable membrane. Water crosses the membrane down its concentration gradient, from the side with the lower solute solution to the side with the higher solute solution. This is therefore making the lower solute solution more concentrated, while also diluting the higher solute concentration solution. Osmosis will carry on until equilibriium is reached which is said to be isotonic, when both sides have reached their equal concentrations. Emms B x
Is bromine chemically active or inactive?
Bromine is chemically active. It is a halogen and readily forms compounds with other elements, making it reactive in chemical reactions.
What is channel diffusion?
Channel diffusion refers to the spread of a product or service through different distribution channels. It involves making the product available to customers through various means such as online stores, retail outlets, or partnerships with other businesses. Channel diffusion helps reach a wider audience and increase accessibility to the product.
Why use percent weight change in osmosis?
Percent weight change is used in osmosis experiments to quantify the amount of water that has moved into or out of a cell or membrane due to the concentration gradient. It allows researchers to track the effectiveness of osmosis in changing the weight of the sample, providing a clear measurement of the osmotic effect. Additionally, it standardizes the data, making it easier to compare results across different experiments.
Is oxygen a passive transport or an active transport?
They move via passive transport. They move by diffusion. It's only active transport if A) the cell is too big or not fatty enough to move through the membrane and needs help or B) is making the molecules move unnaturally (low to high). Osmosis is also passive transport, but only is used when referring to the movement of water.
What is the name of the diffusion of water?
Osmosis. Osmosis is not the same as diffusion of water. Diffusion of water is just diffusion like with any other substance: the particles spreading, making a homogeneous distribution. Osmosis involves a semipermeabel membrane, where water goes from low solvent concentration to high solvent concentration.
What is the diffusion of water?
its osmosis Osmosis is not the same as diffusion of water. Diffusion of water is just diffusion like with any other substance: the particles spreading, making a homogeneous distribution. Osmosis involves a semipermeabel membrane, where water goes from low solvent concentration to high solvent concentration.
What is water diffusion?
its osmosis Osmosis is not the same as diffusion of water. Diffusion of water is just diffusion like with any other substance: the particles spreading, making a homogeneous distribution. Osmosis involves a semipermeabel membrane, where water goes from low solvent concentration to high solvent concentration.
What is diffusion of water?
its osmosis Osmosis is not the same as diffusion of water. Diffusion of water is just diffusion like with any other substance: the particles spreading, making a homogeneous distribution. Osmosis involves a semipermeabel membrane, where water goes from low solvent concentration to high solvent concentration.
Why are Osmosis and Diffusion important processes in cellular function?
The processes of diffusion and osmosis are important for survival because important biological processes depend on them. For example, water is transported into and out of cells through osmosis instead of active transport.
What is called the diffusion of water?
OsmosisOsmosis is not the same as diffusion of water. Diffusion of water is just diffusion like with any other substance: the particles spreading, making a homogeneous distribution. Osmosis involves a semipermeabel membrane, where water goes from low solvent concentration to high solvent concentration.osmosis
Why is facilitated transport not common in bacteria?
Facilitated transport is not common in bacteria because they typically rely on simple diffusion or active transport mechanisms to move molecules across their cell membranes. Bacteria have evolved to efficiently transport nutrients and other molecules through these methods, making facilitated transport less necessary for their survival and growth.
What is the difference between facilitated diffusion with the help of a carrier protein and active transport with the help of a transport transport?
Facilitated diffusion is a type of passive transport in which a substance moves across the cell membrane from high to low concentration. In this situation, the substance moves with the concentration gradient, and with the help of carrier molecules, it is able to make it's way across the membrane smoothly and without the expense of energy. Active transport, on the other hand, is the movement of a substance across the cell membrane from low to high concentration, making the transport a bit more difficult and calling for the use of energy. Transport proteins recognize the substance and allow it to cross through the membrane.
What is the difference between facilitated diffusion with help of the carrier molecule and active transport with help of a transport protein?
The most essential difference is that one is active (uses energy) and one is passive (doesn't require energy). Take note whenever you see the word 'active' in this context- it denotes that energy is required for it to occur, usually against the concentration gradient. Facilitated diffusion is just another passive process by which molecules move from an area of high concentration to low concentration. Note that this requires no energy to occur, except it differs from diffusion in that a carrier molecule is required (usually because the molecule is too large to freely cross the plasma membrane)
What is the difference between facilitated diffusion with the help of carrier protein and active transport with the help of a transport protein?
Facilitated diffusion is a type of passive transport in which a substance moves across the cell membrane from high to low concentration. In this situation, the substance moves with the concentration gradient, and with the help of carrier molecules, it is able to make it's way across the membrane smoothly and without the expense of energy. Active transport, on the other hand, is the movement of a substance across the cell membrane from low to high concentration, making the transport a bit more difficult and calling for the use of energy. Transport proteins recognize the substance and allow it to cross through the membrane.
What is the difference between facilitated diffusion with the help of a carrier protein and active transport with the help of a transport protein?
Facilitated diffusion is a type of passive transport in which a substance moves across the cell membrane from high to low concentration. In this situation, the substance moves with the concentration gradient, and with the help of carrier molecules, it is able to make it's way across the membrane smoothly and without the expense of energy. Active transport, on the other hand, is the movement of a substance across the cell membrane from low to high concentration, making the transport a bit more difficult and calling for the use of energy. Transport proteins recognize the substance and allow it to cross through the membrane.
