Yes it dissolves in water (any amount), it is rather called:
homogeneously mixable with water
Methanol is miscible with water, which means it can mix in any proportion. When methanol is added to water, it forms a homogenous solution due to hydrogen bonding interactions between the methanol and water molecules. This allows methanol to dissolve easily in water.
Methanol (CH3OH) is soluble in water because it can form hydrogen bonds with water molecules. However, it might not dissolve easily in water due to differences in polarity and size between methanol and water molecules. Methanol has a lower boiling point compared to water, so it tends to evaporate rather than form stable solutions with water.
Covalent bonds do not "dissolve" in methanol. Covalent bonds are intramolecular bonds formed by sharing of electrons between atoms within a molecule. Methanol can form hydrogen bonds with certain compounds, but it does not dissolve covalent bonds.
Karl Fischer titration was developed by Karl Fischer who was a chemist. He used methanol, which is an alcohol, to ascertain the amount of water in a system that contains excess sulfur dioxide. The methanol reacts with sulfur dioxide and a base that causes an oxidation reaction that consumes water.
No, water is heavier than methanol. Water has a higher density compared to methanol, which means that for the same volume, water will weigh more than methanol.
There's no such thing as "methonal." There is "methanol," which easily dissolves into water.
Methanol is miscible with water, which means it can mix in any proportion. When methanol is added to water, it forms a homogenous solution due to hydrogen bonding interactions between the methanol and water molecules. This allows methanol to dissolve easily in water.
Methanol (CH3OH) is soluble in water because it can form hydrogen bonds with water molecules. However, it might not dissolve easily in water due to differences in polarity and size between methanol and water molecules. Methanol has a lower boiling point compared to water, so it tends to evaporate rather than form stable solutions with water.
Methanol does not dissolve in sodium hydroxide (NaOH) because it is a polar solvent, and while NaOH is soluble in water, it does not readily dissolve in methanol due to differences in polarity and solvation dynamics. NaOH dissociates into Na⁺ and OH⁻ ions in water, where it is highly soluble, but in methanol, the interactions between the NaOH and methanol molecules are not strong enough to overcome the ion-dipole interactions present in the aqueous solution. Additionally, methanol's hydrogen bonding capabilities do not facilitate the solubility of ionic compounds like NaOH.
Methanol, ethanol, and propanol, all dissolve %100 in water. Also group 1 metal ionic compounds dissolve extremely well in water.
Depends on the solvent. If it is unsaturated water, yes. Unsaturated methanol, no.
Covalent bonds do not "dissolve" in methanol. Covalent bonds are intramolecular bonds formed by sharing of electrons between atoms within a molecule. Methanol can form hydrogen bonds with certain compounds, but it does not dissolve covalent bonds.
Alum is also soluble (less) in Methanol and Ethanol.
Water and methanol are completely miscible (they will dissolve into each other in any proportion). A mixture of water and methanol will always form a clear solution (after sufficient mixing) unless there are impurities in either to start off with.
Karl Fischer titration was developed by Karl Fischer who was a chemist. He used methanol, which is an alcohol, to ascertain the amount of water in a system that contains excess sulfur dioxide. The methanol reacts with sulfur dioxide and a base that causes an oxidation reaction that consumes water.
No, water is heavier than methanol. Water has a higher density compared to methanol, which means that for the same volume, water will weigh more than methanol.
Ammonia dissolves more readily in water compared to methanol because of its ability to form hydrogen bonds with water molecules. The hydrogen bonding between ammonia and water helps to stabilize the ammonia molecules in solution, allowing for better dissolution. In comparison, methanol does not form as strong hydrogen bonds with ammonia, resulting in lower solubility.