'Phobic' means 'have fear' and 'philic' means 'love to', so you might deduce your answer to: materials 'loving water' will dissolve much better.
Yes, hydrophilic substances dissolve in water. Hydrophilic molecules are attracted to water molecules due to their polar nature, allowing them to form bonds with water and dissolve in it. This is in contrast to hydrophobic substances, which repel water and do not dissolve in it.
Hydrophilic materials dissolve in water because they are attracted to water molecules and can form bonds with them. Hydrophobic materials, on the other hand, do not dissolve in water because they are repelled by water and do not interact with water molecules.
Materials that dissolve in water are typically hydrophilic, meaning they have an affinity for water. They are able to interact with water molecules and form stable solutions. Conversely, hydrophobic materials do not easily dissolve in water and tend to repel it.
The polarity of a molecule determines whether it is hydrophilic (attracted to water) or hydrophobic (repelled by water). If a molecule is polar, it is typically hydrophilic, meaning it can dissolve in water. If a molecule is nonpolar, it is usually hydrophobic and does not mix well with water.
Materials that dissolve in water are called hydrophilic. They have an affinity for water and can form hydrogen bonds with water molecules, allowing them to disperse in water.
Hydrophilic means that a substance has an affinity for/attraction to water. It binds with water easily. [It is the opposite of hydrophobic, where a substance has an aversion for water. It forms droplets in water (like oil).]
it is the opposite. Hydrophobic is water hating, hydrophilic is water loving. ie, hydrophobic substances avoid water, hydrophilic are attracted
Ethanol is both hydrophilic and hydrophobic. Its hydroxyl (-OH) group makes it hydrophilic, allowing it to dissolve in water. However, its hydrocarbon chain makes it hydrophobic, meaning it can also dissolve nonpolar substances.
Polar molecules are generally considered to be hydrophilic, meaning they are attracted to water and can dissolve in it.
Polar molecules are more likely to be hydrophilic, meaning they are attracted to water and can dissolve in it.
a micelle allows dirt to dissolve in water very cleverly. they are molecules with a hydrophobic head and a hydrophilic tail. The hydrophobic head is attracted to dirt. Many of these attach to dirt almost covering it like a sphere with the hydrophilic tails letting it dissolve in water.
Hydrophobic molecules do not dissolve in water. This is because water is hydrophilic. Another way to say this is that lipids, which are nonpolar, cannot dissolve in water, which in polar.