A halide is a generic name for a compound called a "salt", which contains a halogen as the "acid" part. Roughly speaking, salts contain an alkali and an acid part. The halogens are the five non-metallic elements found in group 17 of the Periodic Table:
The halide you probably know best is "common salt" or "table salt" - sodium chloride, NaCl, each molecule of which contains one atom of sodium (an alkaline metal) and one atom of chlorine (the halogen). As everyone knows, salt is soluble in water. However, there are a great many halides and not all of them are soluble in water. For example, silver halides (the silver compounds used to make photographic film), except for silver fluoride are very insoluble in water.
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∙ 11y agoIt depends on the specific halide compound. Generally, halides of group 1 elements and ammonium are soluble in water, while halides of group 2 elements are less soluble. Halides of transition metals are typically insoluble in water.
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∙ 15y agoHalite is water soluble. It (halite) is a mineral composed almost exclusively of sodium chloride (NaCl). And you'll recognize that chemical because it's table salt.
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∙ 10y agoYes. Halite is sodium chloride, the same substance as table salt.
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∙ 16y agoRain makes it dissolve.
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∙ 10y agoYes, halide salts are soluble in water.
Yes, caesium astatide (CsAt) is soluble in water. It forms a colorless solution due to the complete dissociation of Cs+ and At- ions in water.
Lead nitrate is soluble in water. When lead nitrate is dissolved in water, it dissociates into lead ions (Pb2+) and nitrate ions (NO3-), forming a clear solution.
Ionic bonds are not soluble in water because they are not individual entities that can dissolve. However, ionic compounds, which are formed by ionic bonds, can often dissolve in water because the individual ions can separate and disperse in the water through the process of ionization.
Yes, ammonium hydroxide (NH4OH) dissolves in water to form an aqueous solution. It dissociates into ammonium ions (NH4+) and hydroxide ions (OH-) in the water.
soluble in water.
Most metal halides are water soluble, and cobalt (II) bromide is no exception.
Yes. Simple alkali metal salts tend to be soluble with extremely few exceptions; most halides are likewise soluble. An alkali metal halide, such as sodium iodide, should be expected to be extremely soluble in water.
Alkyl halides are insoluble in water because they are nonpolar molecules, while water is a polar solvent. The polar nature of water molecules results in strong hydrogen bonding between them, making it difficult for nonpolar alkyl halides to dissolve. This lack of interaction between alkyl halides and water molecules leads to their insolubility in water.
Yes, caesium astatide (CsAt) is soluble in water. It forms a colorless solution due to the complete dissociation of Cs+ and At- ions in water.
Lead nitrate is soluble in water. When lead nitrate is dissolved in water, it dissociates into lead ions (Pb2+) and nitrate ions (NO3-), forming a clear solution.
Since alkyl halides are not soluble in water, two layers form if an alcohol was present to react with the ZnCl2:HCl mixture.
Those salts which can dissolve in water.because water is a solvent and salts are solute.
Silver chloride is the most soluble silver halide, followed by silver bromide and then silver iodide, in that order. Silver chloride is more soluble because it has the weakest bond strength among the three silver halides.
To answer you question HgBr2 is soluble in water. I had the same question so I surfed around a bit and found the answer on a chemistry based website talking about solublity and net ionic equations. Hope this helps~
AgI (silver iodide) has very low solubility in water, with only about 0.0013 g/100 mL at 20°C. This makes it practically insoluble in water.
Ionic bonds are not soluble in water because they are not individual entities that can dissolve. However, ionic compounds, which are formed by ionic bonds, can often dissolve in water because the individual ions can separate and disperse in the water through the process of ionization.
Yes, ammonium hydroxide (NH4OH) dissolves in water to form an aqueous solution. It dissociates into ammonium ions (NH4+) and hydroxide ions (OH-) in the water.