The answer is 252,05 mL.
Lead nitrate + potassium sulfate ---> Lead sulfate + Potassium nitrate
Evaporation will cause lead nitrate to precipitate as crystals.
Pour a solution of Sodium(or Potassium) Iodide over Lead nitrate solution. The Lead iodide will be precipitated out as a yellow solid
It is a solution produced from adding metal lead and nitric acid to form lead nitrate and hydrogen
The salt solutions that lead react with are lead nitrate solution and sodium chloride. This reaction produces solid lead chloride, and leave soluble sodium nitrate in the solution.
MConcentrated X VConcentrated = MDiluted X VDiluted Mc is 3.45M Vc is what we are solving for Md is 0.990M Vd is 0.450L Plug them in, (3.45M)X(Vc)=(0.990M)(0.450L) Divide by 3.45M Your answer is 129
Lead nitrate + potassium sulfate ---> Lead sulfate + Potassium nitrate
Evaporation will cause lead nitrate to precipitate as crystals.
A lead nitrate solution in water is formed.
Pour a solution of Sodium(or Potassium) Iodide over Lead nitrate solution. The Lead iodide will be precipitated out as a yellow solid
It is a solution produced from adding metal lead and nitric acid to form lead nitrate and hydrogen
The salt solutions that lead react with are lead nitrate solution and sodium chloride. This reaction produces solid lead chloride, and leave soluble sodium nitrate in the solution.
A precipitate of Lead iodide and Potassium nitrate are formed
By evaporating or boiling off all the water, which will leave behind white mass of Lead Nitrate
Aqueous lead nitrate plus aqueous sodium iodide produce solid lead iodide and aqueous sodium nitrate.
In order to prepare 500 ppm of lead solution from lead nitrate dissolve 0.799 gm of lead nitrate in 1000ml of water--add 1 or 2 drops of nitric acid.
When zinc nitrate solution is added to lead nitrate solution you willÊapparently observe a black solid being formed. All of the research yielded facts from adding solid metal to either zinc or lead.