Calculate what volume of the following solutions is required to
obtain 0.294 mol of each solute.
(a) | 0.299 M AlCl3 | L |
(b) | 2.45 M HCl | L |
Calculate what volume of the following solutions is required to obtain 0.294 mol of each solute....
For each of the following solutions, calculate the specified value. 1) Calculate the volume in liters of a 3.90 M KCl solution to obtain 0.30 mol of KCl. Express your answer with the appropriate units. 2)Calculate the volume in liters of a 4.15 M HCl solution to obtain 5.70 mol of HCl. Express your answer with the appropriate units. 3)Calculate the volume in milliliters of a 3.80 M K2SO4 solution to obtain 1.90 mol of K2SO4. Express your answer with...
For each of the following solutions, the number of moles of solute is given, followed by the total volume of the solution prepared. Calculate the molarity of each solution. (a) 0.630 mol KBr; 125 mL M (b) 0.630 mol KBr; 250. mL (c) 0.630 mol KBr; 500 ml M (d) 0.630 mol KBr; 1.00 L
1. Calculate the molarity of the following solutions: a. 318 g Mg Br, in 859 ml solution b. 8.28 g Ca(C,H,O,), in 414 ml solution c. 31,1 g Al,(80.), in 766 ml solution d. 59.8 g CaCl, in 100 ml solution e. 313.5 g LICIO, in 250 ml solution | 849 Calculate the moles of solute needed to prepare each of the following: 2. LOL of a 3.0 M NaCl solution b. 0.40 L of a 1.0 M KBr solution...
8-47 Calculate the mass-volume percent of MgCl, in each of the following solutions. a. 5.0 g of MgCl, in enough water to give 250 mL of solution b. 85 g of MgCl, in enough water to give 580 mL of solution 8-43 Calculate the volume percent of solute in each of the following solutions. a. 20.0 mL of methyl alcohol in enough water to give 475 mL of solution b. 4.00 mL of bromine in enough carbon tetrachloride to give...
How many moles of the indicated solute does each of the following solutions contain? (a) 5.20 mL of 0.147 M CaCl2 solution 40 mol (b) 11.0 mL of 0.416 M NaOH solution mol (c) 1.75 L of 13.0 M HCl solution mol (d) 19.5 mL of 2.80 M NaCl solution mol
1.Calculate the volume in liters of a 3.10 M KCl solution to obtain 0.15 mol of KCl. 2.Calculate the volume in liters of a 4.65 M HCl solution to obtain 4.60 mol of HCl. 3.Calculate the volume in milliliters of a 3.55 M K2SO4 solution to obtain 2.30 mol of K2SO4.
calculate the volume for the following...
a.) 37.0 M KCl solution to obtain 0.60mol of KCl
(LITERS)
b.) 6.40M HCl solution to obtain 6.45mol of HCl (LITERS)
c.) 3.25 M K2SO4 solution to obtain 1.30mol of K2SO4
(MILILITERS)
thank you in advance❤️❤️
Part A Calculate the volume in liters of a 3.70 M KCl solution to obtain 0.60 mol of KCI. Express your answer with the appropriate units. Value Units Submit Request Answer Part B Calculate the volume in liters...
Calculate the mass/volume percent, % (m/v) for the solute in each of the following solutions. 70 g of Na2SO4 in 250 mL of Na2SO4 solution? 37 g of sucrose in 335 mL of a carbonated drink?
For each of the following HCl solutions, the moles or grams of solute present and the total solution volume are given. Calculate the molarity of each solution. a.-1.40 moles HCl, 1.45 L solution b. 0.850 mole HCl, 0.867 L solution c. 30.0 g HCI, 1.45 L solution d. 30.0 g HCI, 875 mL solution 8-53 For each of the following KOH solutions, the moles or 8-54 re b. S.00gvae c. 25.0 g NaCI, 137.0 g H2O d. 729 mg NaCl,...
For each of the following solutions, the mass of solute is given, followed by the total volume of the solution prepared. Calculate the molarity of each solution. (a) 3.89 g KBr; 25 mL M (b) 3.89 g KBr; 50. mL M (c) 3.89 g KBr; 75 mL (d) 3.89 g KBr; 1.00 L