purple ring
Reagent A: sulfanilic acid + acetic acid Reagent B: N,N,-dimethyl-I-naphthylamine + acetic acid
Lead nitrate + potassium sulfate ---> Lead sulfate + Potassium nitrate
No, we cannot stir silver nitrate solution with a copper spoon because , copper is more reactive than silver. Thus,it would displace silver from the silver nitrate solution forming copper nitrate....
Evaporation will cause lead nitrate to precipitate as crystals.
No. Iron is a more reactive metal than silver, so the iron will replace the silver in the silver nitrate solution, forming an iron nitrate solution and solid silver. Eventually, the iron container will be gone, its atoms having gone into the iron nitrate solution.
Reagent A: sulfanilic acid + acetic acid Reagent B: N,N,-dimethyl-I-naphthylamine + acetic acid
e.aerogenes is nitrate positive after reagents A and B--> A (sulfanilic acid ) and B (naphthylamine) to the incubated bacteria a red color was produced which indicates a that my bacteria does reduce Nitrate to nitrite.
It is a solution. A solution is a type of mixture in which a solute is dissolved in a solvent. A solution is a homogeneous mixture. In the case of an aqueous solution of sodium nitrate, the sodium nitrate is the solute and the water is the solvent.
A solution of sodium nitrate is homogeneous.
Lead nitrate + potassium sulfate ---> Lead sulfate + Potassium nitrate
No, we cannot stir silver nitrate solution with a copper spoon because , copper is more reactive than silver. Thus,it would displace silver from the silver nitrate solution forming copper nitrate....
Nitrate or NO3 is an inorganic anion. A 50 mg/l Nitrate solution (as NO3) is the equivalent to a 11.3 mg/l Nitrate solution (as N).
Evaporation will cause lead nitrate to precipitate as crystals.
No. Iron is a more reactive metal than silver, so the iron will replace the silver in the silver nitrate solution, forming an iron nitrate solution and solid silver. Eventually, the iron container will be gone, its atoms having gone into the iron nitrate solution.
Sodium nitrate (NaNO3) is very soluble in water.
When a cooled saturated potassium nitrate solution is added to water, the concentration of the potassium nitrate decreases making it less likely that he substance will precipitate out of solution.
When silver nitrate, a soluble solution, is mixed with a carbonate solution a precipitation reaction (double replacement reaction) takes place forming nitrate ions and the insoluble solid silver carbonate.