as silver nitrate reacts with iron(AgNO3+Fe gives FeNO3+Ag)(decomposition reaction).
silver nitrate dissolves in water. so it should form a homogeneous solution
When you place copper wire in a silver nitrate solution, your result should be a heterogeneous mixture.
Add potassium nitrate to distilled water while stirring continuously; stop adding potassium nitrate once the chemical becomes saturated and stops dissolving in the water. Filter the solution into an evaporating dish and measure the temperature of the solution. Measure the temperature and carefully heat the solution under low heat. Weigh the potassium nitrate to determine its solubility. You should find that approximately 36 g of potassium nitrate can be dissolved in 100 ml of water at room temperature (25 degrees Celsius). santosh kumar.batchu santoshkumar@gmail.com
Nitrate can also be lost through denitrification (gaseous loss of nitrous oxide to the atmosphere) should the soil become waterlogged. For this reason, ammonium nitrate is not suitable for use in flood irrigated rice.
There should not be a reaction being that usually elements do not react with their nitrates. But if the calcium nitrate solution was acqueous (water), the calcium will react with the water and as I found in my class, turned black and appeared to react. It does not react with the nitrate but the solution's water.
Calcium nitrate or potassium nitrate dissolved in water and sprayed on certain plant leaves should help them grow faster than just water alone. The type of solution would vary from plant to plant. Some plants burn when water is sprayed on their leaves.
Calcium nitride is Ca3N2 and is basic. Calcium nitrate is Ca(NO3)2 and is neutral.
Should be a white precipitate. Indicative of the presence of either Na or Mg. Wrong again people. Silver Nitrate is used to test for the presence of chloride ions. Such as those in your salt a.k.a sodium chloride and yes adding silver nitrate to your salt solution will create a white precipitate.
In Chemistry the Brown Ring test is performed by add iron(II) sulfate with a solution of nitrate, then add sulphuric acid, a brown ring should form.
Look up molecular mass of lead nitrate in the periodic table. Formula of lead nitrate is Pb(NO3)2 Molecular mass is 331.2 gm/mole A one molar solution has 1 mole per liter of solution. 13.6 grams/331.2 gm/mole = 0.041 moles 0.041 moles/0.15 molar = .274 liters This is not exactly correct, because when you add a solute to a solvent, the volume of the solution may be more or less than the original volume of solvent, depending upon the interaction of the solvent and the solute. Actually, the final volume of solution should be 0.274 liters. The most accurate way is to dissolve the solute is slightly less than the calculated amount of solvent needed, and then adjust the volume to the final amount after the solute is completely dissolved.
If you have the solid of whatever your testing and you burn it (flame test) it will burn with an orange flame if sodium is present. To establish whether it is sodium CHLORIDE, ad a solution of what your testing to silver nitrate and it should form a white precipitate if it's sodium chloride.
It depends on the strength of the solution you want. 3.33g of AgNO3 is 0.0196 moles. Ish. So from there, you need to work out how much water is needed to create your required strength. 1.42 moles of silver nitrate is the maximum you can dissolve in 100g of water.