Substances that can easily diffuse through the skin are typically small, nonpolar molecules, such as lipid-soluble compounds like steroids and certain medications. Additionally, some small polar molecules, like water and ethanol, can also penetrate the skin to a limited extent. The skin's outer layer, the stratum corneum, acts as a barrier, making it easier for these types of molecules to pass through compared to larger or charged substances.
If the blue ink is the kind you use in your desktop printer, the ink will diffuse faster. The kind of ink they use to print newspapers will never diffuse.
Small, non-polar molecules like oxygen and carbon dioxide are likely to move via passive transport through a phospholipid bilayer. These molecules can easily diffuse across the lipid bilayer due to their size and hydrophobic nature. Larger or polar molecules generally require other mechanisms such as facilitated diffusion or active transport to cross the membrane.
Also small molecules.Basically because the cell membrane is amphipathic; a polar head and non-polar tails make up the double layered membrane with non-polar tails sticking inward and polar heads outward. This means that the non-polar middle, the lipid part, does not allow hydrophyllic substances to pass easily through the membrane while non-polar substances can pass through easily. Having to do with charge and solubility.
No, not all molecules can diffuse through all cell membranes. The ability of a molecule to diffuse through a cell membrane depends on its size, charge, and solubility in lipids. Small, non-polar molecules can generally pass through the lipid bilayer of cell membranes via simple diffusion, while larger, polar molecules may require specific transport mechanisms.
lipids, and ribosomeslipids
Capillaries. they have such thin walls that substances can easily diffuse through them.
If the blue ink is the kind you use in your desktop printer, the ink will diffuse faster. The kind of ink they use to print newspapers will never diffuse.
Small, non-polar molecules like oxygen and carbon dioxide are likely to move via passive transport through a phospholipid bilayer. These molecules can easily diffuse across the lipid bilayer due to their size and hydrophobic nature. Larger or polar molecules generally require other mechanisms such as facilitated diffusion or active transport to cross the membrane.
A metal
Diffuse Nebula
Diffuse reflection
Also small molecules.Basically because the cell membrane is amphipathic; a polar head and non-polar tails make up the double layered membrane with non-polar tails sticking inward and polar heads outward. This means that the non-polar middle, the lipid part, does not allow hydrophyllic substances to pass easily through the membrane while non-polar substances can pass through easily. Having to do with charge and solubility.
No, not all molecules can diffuse through all cell membranes. The ability of a molecule to diffuse through a cell membrane depends on its size, charge, and solubility in lipids. Small, non-polar molecules can generally pass through the lipid bilayer of cell membranes via simple diffusion, while larger, polar molecules may require specific transport mechanisms.
Nail and sand would be considered a heterogeneous mixture because the two substances do not mix uniformly and can be easily separated.
The answer 2 this ? is that it is the insulator because the definition is that an insulator is something that cannot move through that well.
Fiber is a type of carbohydrate that your body can't digest. As a result, it moves all the way through your digestive system. It can sometimes hold water (depending on the kind of fiber) and it will help other substances move along as well, so you can poop more easily.
The molecules of sugar bond with the water molecules. This is because water is a solvent, which are substances that can bond to another kind of subtances easily. Note: Water is considered the universal solvent, because it is considered to be the strongest substance to dissolve most substances.