The applicable rules of thumb are:
All common nitrates are soluble.
All common alkali metal salts are soluble.
Applying those two rules, the only thing we're left with is silver chloride, which is insoluble. In fact, the solubility rule for chlorides is "All common chlorides are soluble except silver, Mercury (I), and lead."
LiCl
I tried to dissolve AgNO3 in DMF and i found that it is easily soluble in it . So one can have a try, distilled water can also be best employed for the same .
water- soluble
Diphenylamine is only slightly soluble in water, but more soluble in polar organic solvents.
it is freely soluble in water
Siderite is not soluble in water.
All Nitrate compounds are soluble.
Yes. AgNO3 + NaCl --> NaNO3 + AgCl AgCl will form a milky white precipitate, where as NaNO3 is soluble in water.
I tried to dissolve AgNO3 in DMF and i found that it is easily soluble in it . So one can have a try, distilled water can also be best employed for the same .
Chloroform is not soluble in water. There are no Cl- ions and no reaction with AgNO3.
The symbol for silver nitrate is AgNO3. It is a chemical compound that is soluble in water and has a melting point of 212 degrees Celsius.
AgNO3 dissociates into Ag+ and NO3- ions in water and from these Ag+ions combine with Cl- in saline water (from ionised NaCl or CaCl2) to form the white AgCl precipitate.So from the amount of AgNO3 consumed we can find Chloride content of water, which mostly correspondenses with salinity.The nitrate ions are not reacting (all nitrates are/stay soluble, thus ionised)
A red colouration is obtained. This is a test for ketones
This is a precipitation reaction. Halides of silver are insoluble in water (except silver fluoride) whereas all nitrates are soluble in water. Sodium salts are soluble. Thus, silver iodide is the precipitate. Formula: AgNO3(aq) + NaI(aq) -> AgI(s) + NaNO3(aq)
Water soluble.
0grams
fat soluble vitamins are stored in our fat tissues and water soluble vitamins are soluble in water.
Partially soluble in water, Soluble in hot water.