For example, adding silver nitrate solution to a solution containing halogen ions: formation of a white insoluble precipitate.
Silver nitrate is a crystalline solid at room temperature and is not considered to be brittle in the traditional sense. However, it is a highly reactive compound that can be easily decomposed upon exposure to light, heat, or organic material.
Lead and silver nitrate will react to produce silver and lead nitrate. Pb(s) + AgNO3(aq) --> Ag(s) + Pb(NO3)2(aq) We can know this by referring to an activity (also called reactivity) series for metals, which lists metals in a vertical list such that any metal will replace any metal below it on the list. Lead is above silver, therefore, the lead will replace the silver in the silver nitrate compound. For an activity series from Wikipedia, refer to the related link below.
i have know idea how to do chemical equasions and my science teacher has not taught me anything on it. Are these equasions right? Lead + Silver nitrate -------- Silver + Lead nitrate Pb(s) AgNo3 Ag (s) Pb (No3)2
Well, because you have 65g of AgNO3, you have .3826 moles of silver nitrate. This is found by dividing the number of grams you have by the molar mass of silver nitrate (169.9g/mol). Once you know how many moles there are you can then multiply by Avogodro's number (6.022x1023) to obtain the number of molecules. In this case it is 2.304x1023 molecules.
Potassium nitrate is an inorganic compound. It is a salt that is commonly used in fertilizers, food preservation, and fireworks.
The number of moles of silver chromate formed will depend on the stoichiometry of the reaction between silver nitrate and potassium chromate. You need to know the balanced chemical equation, as well as the exact volumes and concentrations of the silver nitrate and potassium chromate solutions to calculate the number of moles of silver chromate formed.
Well, because you have 65g of AgNO3, you have .3826 moles of silver nitrate. This is found by dividing the number of grams you have by the molar mass of silver nitrate (169.9g/mol). Once you know how many moles there are you can then multiply by Avogodro's number (6.022x1023) to obtain the number of molecules. In this case it is 2.304x1023 molecules.
To find the number of moles in 2.8881015 formula units of silver nitrate, you first need to know the molar mass of silver nitrate (AgNO3), which is 169.87 g/mol. Then, you can use the formula: moles = formula units / Avogadro's number. Therefore, moles = 2.8881015 / 6.022 x 10^23 = 4.79 x 10^-24 moles.
magnesium + aluminum nitrate ---> magnesium nitrate + aluminum
I don't think so.Because it may have a reaction like this: 3Ag+ + Fe =3Ag + Fe3+. (personal opinion, because the reaction above is just from the theory and I don't know whether the iron vessel will get deactivated like being put in concentrated sulfuric acid)
To determine the mass of silver chloride produced, we need to know the balanced chemical equation for the reaction between silver nitrate (AgNO3) and sodium chloride (NaCl) that produces silver chloride (AgCl) as a precipitate. Once we have the balanced equation, we can use the stoichiometry of the reaction to determine the number of moles of AgCl produced, and then convert that to mass using the molar mass of AgCl.
The reaction is: AgNO3 + KCl = AgCl + KNO3The precipitate is silver chloride.