So pretty much I have a balanced equation ofNaCl(aq)+AgNO3(aq)---NaNO3(aq)+AgCl(s). There is a mystery solutionthat has an unknown amout of AgNO3 and the problem wants me to findthe mass of AgNO3 present in the mystery solution. So if I have98.623 mL, 204.874g of mystery solution, 56.685 mL, 251.892g ofNaCl, and 54.646 mL, 365.003g AgNO3. The molar mass of AgCl is143.323, molar mass of AgNO3 is 169.874. This is a limitingreactant problem. The only hint I get is how can you determine themass of silver nitrate dissolved in a solution of unknownconcentration based on the chemistry of the reaction between silvernitrate and sodium chloride to produce solid silver chloride andaqueous sodium nitrate? The answer should be around 2.xx(hundreths) something. Also if you were to perform this in lab whatsoltuion would you pour into what and about what process would yougo through to find mystery soltuion?What is the mass ofAgNO3 that is present in mystery solution?
So pretty much I have a balanced equation ofNaCl(aq)+AgNO3(aq)---NaNO3(aq)+AgCl(s). There is a mystery solutionthat has an unknown amout of AgNO3 and the problem wants me to findthe mass of AgNO3 present in the mystery solution. So if I have98.623 mL, 204.874g of mystery solution, 56.685 mL, 251.892g ofNaCl, and 54.646 mL, 365.003g AgNO3. The molar mass of AgCl is143.323, molar mass of AgNO3 is 169.874. This is a limitingreactant problem. The only hint I get is how can you determine themass of silver nitrate dissolved in a solution of unknownconcentration based on the chemistry of the reaction between silvernitrate and sodium chloride to produce solid silver chloride andaqueous sodium nitrate? The answer should be around 2.xx(hundreths) something. Also if you were to perform this in lab whatsoltuion would you pour into what and about what process would yougo through to find mystery soltuion?What is the mass ofAgNO3 that is present in mystery solution?