Yes, chloride ions are soluble in water.
NH3 acts as a polar solvent and separates the NH4+ and Cl- ions. These mobile ions remain dissolved in liq NH3.
Sodium chloride is very soluble in water; the solution contain ions Na+ and Cl_.
They are ionic compounds, and many ionic compounds are soluble in water, as their ions dissociate in the water.
chloride salts are usually soluble, but with silver it is not soluble.
Yes, sodium sulfate is water soluble. Many sulfates are soluble in water. A notable exception is barium sulfate, whose insolubility forms the basis of a test for the presence of sulfate ions. Add barium chloride to a solution containing sulfate ions. The white barium sulfate precipitate is a positive test for sulfate ions.
NH3 acts as a polar solvent and separates the NH4+ and Cl- ions. These mobile ions remain dissolved in liq NH3.
Sodium chloride is very soluble in water; the solution contain ions Na+ and Cl_.
They are ionic compounds, and many ionic compounds are soluble in water, as their ions dissociate in the water.
The chloride ion is Cl- (chlorine with a gained electron); these ions exist for example in water solutions of soluble chlorides.
Anything with lead ions and anything with chloride ions. So, for example, lead nitrate and sodium chloride. Getting lead into solution is actually the tricky part here; most lead compounds are not particularly soluble.
chloride salts are usually soluble, but with silver it is not soluble.
Sodium chloride is not soluble in benzene.
Yes, any salt or chloride is soluble
Mercury chloride is soluble in water.
Sodium chloride is not soluble in isopropanol.
Not quite right. Sodium chloride is formed from sodium ions (Na+) and chloride ions (Cl-)
Yes, sodium sulfate is water soluble. Many sulfates are soluble in water. A notable exception is barium sulfate, whose insolubility forms the basis of a test for the presence of sulfate ions. Add barium chloride to a solution containing sulfate ions. The white barium sulfate precipitate is a positive test for sulfate ions.