No, water can dissolve both inorganic and organic compounds. Water is considered a universal solvent because it has the ability to dissolve a wide variety of substances due to its polar nature and ability to form hydrogen bonds.
Yes, it is correct.
Mercury dissolves in water due to its ability to form amalgamates. The low solubility of elemental mercury in water limits its dissolution, but it can form complexes with other compounds present in water. The dissolved mercury ions form stable complexes, allowing it to dissolve and become dispersed in the water.
its not D. none of the above
Chromium is generally considered to be water-soluble, particularly in its trivalent form (chromium III), which can dissolve in water to form various compounds. However, certain chromium compounds, especially hexavalent chromium (chromium VI), can exhibit varying solubility depending on the specific chemical form and environmental conditions. In contrast, chromium is not fat-soluble, as it does not dissolve in fats or oils.
When ionic compounds dissolve in water, they form ions. The positive and negative ions in the compound separate in the water due to the polar nature of water molecules. This process is known as dissociation.
Ionic compounds, such as sodium chloride (NaCl) or potassium nitrate (KNO3), dissolve in water to form an ionic solution. When these compounds are added to water, they dissociate into ions, which allows them to conduct electricity and exhibit other characteristic properties of ions in solution.
No, water can dissolve both inorganic and organic compounds. Water is considered a universal solvent because it has the ability to dissolve a wide variety of substances due to its polar nature and ability to form hydrogen bonds.
Yes, it is correct.
Water is a polar molecule due to its uneven distribution of electrons, which allows it to interact with and dissolve other polar or ionic compounds. The positive and negative charges in water molecules interact with the charges on the ionic compounds, causing them to dissociate and dissolve in water. This ability to form hydrogen bonds with the ions in the compound helps water dissolve most polar ionic compounds.
Compounds such as sulfur dioxide (SO2) and nitrogen oxides (NOx) can cause acid rain. These compounds react with water in the atmosphere to form sulfuric acid and nitric acid, which then fall back to Earth in the form of acid rain.
Arsenic is a solid metalloid that is not soluble in water. It can react with certain acids or salts to form soluble compounds, but arsenic itself does not dissolve like a typical substance would in water.
Na2CrO4 will dissolve in water as will all sodium compounds.
The process by which some molecular compounds dissolve in water to form ions is called dissolution or ionization. This occurs when the polar water molecules surround and separate the individual ions in the compound, breaking the bonds holding them together. This results in the compound dissociating into its constituent ions.
Ionic compounds generally dissolve in water dissociating to give ions that are free to move and conduct electricity. Molten ionic compounds also have free ions and conduct electricity. Ionic compounds generally do not conduct electricity in the solid form.
hydrogen bonding in water makes it more polarized thus able to form bond with other molecules easily
Ionic compounds form electrolyte solutions because they dissociate into ions when they dissolve in water. These free ions are able to conduct electricity, making the solution an electrolyte.