ionic
Hydrogen chloride is covalent. It is formed by a covalent bond between hydrogen and chlorine atoms, where they share electrons to achieve stability. An ionic bond involves the transfer of electrons between a metal and a non-metal.
No, the ionic end of soap dissolves in water, not oil. The ionic end of soap is hydrophilic, meaning it is attracted to water molecules. It is the nonpolar end of soap that dissolves in oil, as it is hydrophobic and repels water.
Water is a liquid and is usually considered to be the solvent. Water dissolves solutes. Many ionic compounds, but not all, are soluble in water. Water has negative and positive areas on the molecule so it is ideally suited to dissolving the negative and positive ions of an ionic substance. Purely covalent compounds, non-polar, are not supported by water so do not dissolve. Purely covalent, non-polar compounds have no negative and positive areas for the water to support.
Ionic compounds dissociate into their constituent ions when they dissolve in solutions, whereas covalent compounds do not dissociate into ions and remain as molecules. This means that ionic compounds can conduct electricity in solution due to the presence of free ions, while covalent compounds generally do not conduct electricity in solution.
Yes, salt (sodium chloride) dissolves in water. When salt is added to water, the water molecules surround the salt ions, breaking the ionic bonds and pulling the salt apart. This results in a clear, homogeneous solution with the salt evenly distributed throughout the water.
Any ionic salts dissolves in water quickly.(Like NaCl, Sodium Chloride) as water is a polar solvent. The salt ionizes in water quickly than sugar.
Hydrogen chloride is covalent. It is formed by a covalent bond between hydrogen and chlorine atoms, where they share electrons to achieve stability. An ionic bond involves the transfer of electrons between a metal and a non-metal.
Its molecular make up is neither completely covalent or ionic but it exhibits properties of both.
The bond between MgCl2 and water is primarily ionic. In MgCl2, magnesium (Mg) forms an ionic bond with chlorine (Cl), creating a compound with charged ions. When MgCl2 dissolves in water, the polar nature of water molecules allows them to interact with the charged ions through ion-dipole interactions.
The water molecule has a covalent bond. Since there is no other kind of water, "covalent water" is redundant. That's what water is. There is no ionic water (although ionic compounds often dissolve in water).
No, the ionic end of soap dissolves in water, not oil. The ionic end of soap is hydrophilic, meaning it is attracted to water molecules. It is the nonpolar end of soap that dissolves in oil, as it is hydrophobic and repels water.
water water
Water is a liquid and is usually considered to be the solvent. Water dissolves solutes. Many ionic compounds, but not all, are soluble in water. Water has negative and positive areas on the molecule so it is ideally suited to dissolving the negative and positive ions of an ionic substance. Purely covalent compounds, non-polar, are not supported by water so do not dissolve. Purely covalent, non-polar compounds have no negative and positive areas for the water to support.
If a compound dissolves into water and allows for the conductance of electrical current its said to be ionic and an electrolyte. Sodium chloride (NaCl) or table salt exhibits this property. Sugar is a compound that will dissolve in water but not conduct current. Sugar is not an electrolyte or ionic; rather a covalent molecule.
Ionic compounds dissociate into their constituent ions when they dissolve in solutions, whereas covalent compounds do not dissociate into ions and remain as molecules. This means that ionic compounds can conduct electricity in solution due to the presence of free ions, while covalent compounds generally do not conduct electricity in solution.
Yes, that is why water dissolves quicker with salt.
No. Water is a polar covalent compound.