express the concentration of the solution of 0.254 M Na3PO4 in equivalent of phosphate ions/liters.

express the concentration of a solution of 0.161 M Na3PO4 in equivalents of sodium ions/liters.

express the concentration of a solution of 0.161 M Na3PO4 in equivalents of sodium ions/liters.

A scientist wants to make a solution of tribasic sodium phosphate, Na3PO4 , for a laboratory...

A scientist wants to make a solution of tribasic sodium phosphate, Na3PO4 , for a laboratory experiment. How many grams of Na3PO4 will be needed to produce 675 mL of a solution that has a concentration of Na+ ions of 0.800 M ? Express your answer to three significant figures and include the appropriate units

A scientist wants to make a solution of tribasic sodium phosphate, Na3PO4, for a laboratory experiment....

A scientist wants to make a solution of tribasic sodium phosphate, Na3PO4, for a laboratory experiment. How many grams of Na3PO4 will be needed to produce 550. mL of a solution that has a concentration of Na+ ions of 1.50 M ? Express your answer to three significant figures and include the appropriate units.

A scientist wants to make a solution of tribasic sodium phosphate, Na3PO4, for a laboratory experiment....

A scientist wants to make a solution of tribasic sodium phosphate, Na3PO4, for a laboratory experiment. How many grams of Na3PO4 will be needed to produce 750 mL of a solution that has a concentration of Na+ ions of 1.30 M? First determine the number of Na+ using the given molarity and volume. Next, use the chemical formula to determine the number of moles of Na3PO4 needed. Finally, convert moles to grams using the molecular weight of the compound. How...

A scientist wants to make a solution of tribasic sodium phosphate, Na3PO4, for a laboratory experiment....

A scientist wants to make a solution of tribasic sodium phosphate, Na3PO4, for a laboratory experiment. How many grams of Na3PO4 will be needed to produce 638 mL of a solution that has a concentration of Na+ ions of 0.603 M ? Enter a numerical answer only, in terms of grams.

Calculate the molar solubility of silver phosphate in a 0.030M Na3PO4 solution. Ksp for silver phosphate...

Calculate the molar solubility of silver phosphate in a 0.030M Na3PO4 solution. Ksp for silver phosphate is 8.9×10-17.

A. The equilibrium concentration of phosphate ion in a saturated chromium(III) phosphate solution is______ M. B.The...

A. The equilibrium concentration of phosphate ion in a saturated chromium(III) phosphate solution is______ M. B.The molar solubility of cobalt(II) hydroxide in a water solution is_______ M.

A basic solution contains the iodide and phosphate ions that are to be separated via selective...

A basic solution contains the iodide and phosphate ions that are to be separated via selective precipitation. The I– concentration, which is 7.80×10-5 M, is 10,000 times less than that of the PO43– ion at 0.780 M . A solution containing the silver(I) ion is slowly added. Answer the questions below. Ksp of AgI is 8.30×10-17 and of Ag3PO4, 8.90×10-17. Calculate the minimum Ag+ concentration required to cause precipitation of AgI. Calculate the minimum Ag+ concentration required to cause precipitation...

A basic solution contains the iodide and phosphate ions that are to be separated via selective...

A basic solution contains the iodide and phosphate ions that are to be separated via selective precipitation. The I– concentration, which is 9.60×10-5 M, is 10,000 times less than that of the PO43– ion at 0.960 M . A solution containing the silver(I) ion is slowly added. Answer the questions below. Ksp of AgI is 8.30×10-17 and of Ag3PO4, 8.90×10-17. Calculate the minimum Ag+ concentration required to cause precipitation of AgI. (Answer in mol/L) Calculate the minimum Ag+ concentration required...

1) The mole fraction of sodium phosphate, Na3PO4, in an aqueous solution is 5.62×10-2 . The...

1) The mole fraction of sodium phosphate, Na3PO4, in an aqueous solution is 5.62×10-2 . The percent by mass of sodium phosphate in the solution is %. 2)An aqueous solution is 36.0 % by mass hydrochloric acid, HCl, and has a density of 1.18 g/mL. The mole fraction of hydrochloric acid in the solution is .