NaCl, or table salt, is a hydrophilic substance. Other examples include practically any household object that absorbs water, such as paper towels, sponges, and cloth.
A hydrophilic substance will dissolve in water. A hydroPHOBIC substance will not.
A polar molecule is hydrophilic, which means that it will easily dissolve in water. Examples of hydrophilic molecules are sugars and salts.
Whether it's charged or not, hydrophilic, hydrophobic and its size.
hydrophilic substances are electrically polar in character, they possess a dipole. Intermolecular forces associated with this polarity attract (or are attracted by) the polar water molecules. Having sufficient energy, the water molecules can interpose themselves between and eventually surround the hydrophilic substance thus reducing the repulsive intermolecular forces acting between these hydrophilic molecules in their pure state... Energy and Entropy effects are driving the process...
hydrophilic b/c carbohydrates are made of sugars; sugars (such as glucose) have LOTS of hydroxyl groups which are hydrophilic, therefore carbohydrates are hydrophilic
A hydrophilic substance will dissolve in water. A hydroPHOBIC substance will not.
hydrophilic
NaCl, or table salt, is a hydrophilic substance. Other examples include practically any household object that absorbs water, such as paper towels, sponges, and cloth.
Hydrophilic.
salt
A polar molecule is hydrophilic, which means that it will easily dissolve in water. Examples of hydrophilic molecules are sugars and salts.
hydrophilic compound
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).]
idontk nowtheansewrtothis question
Whether it's charged or not, hydrophilic, hydrophobic and its size.
A soap molecule contain a long chain of hydrocarbon which is hydrophobic and a short ionic part which is hydrophilic, when oily and greasy substance comes in the contact of soap, then long chain of hydrocarbon get attach with them and form a substance which is hydrophilic ( soluble in water ) and due to that oily an greasy substance removed form cloths.
hydrophilic substances are electrically polar in character, they possess a dipole. Intermolecular forces associated with this polarity attract (or are attracted by) the polar water molecules. Having sufficient energy, the water molecules can interpose themselves between and eventually surround the hydrophilic substance thus reducing the repulsive intermolecular forces acting between these hydrophilic molecules in their pure state... Energy and Entropy effects are driving the process...