8-47 Calculate the mass-volume percent of MgCl, in each of the following solutions. a. 5.0 g...
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,...
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...
Calculate the volume, in milliliters, for each of the following that provides the given amount of solute: a. 12.5 g of Na2CO, from a 0.120 M Na CO, solution b. 0.850 mol of NaNO, from a 0.500 M NaNO, solution c. 30.0 g of LiOH from a 2.70 M LiOH solution Calculate the final concentration of each of the following: a. 2.0 L of a 6.0 M HCl solution is added to water so that the final volume is 6.0...
2. Calculate the molarity (M) of 30.0 g of NaOH in 350 mL of NaOH solution. Show all the step by step work: 3. Calculate the amount of solute, in moles, grams or milliliters, needed to prepare the following solutions. Show all the step by step solution: a. 1.00 L of a 3.00 M NaCl solution (moles of solute) b. 2.00 L of a 1.50 M NaOH solution (grams of solute) c. Milliliters of 1.50 M NaCl solution to obtain...
Calculate the volume percent of solute in each of the solutions. A solution made by adding 17.1 mL of methyl alcohol to enough water to give 489 mL of solution. % (v/v) = A solution made by adding 77.9 mL of ethylene glycol to enough water to give 213 mL of solution. % (v/v) =
Calculate the volume percent of solute in the following solutions. 28.1 mL of methyl alcohol in enough water to give 495 mL of solution. 66 7 mL of ethylene glycol in enough water to give 229 mL of solution.
13.9 Molarity and chemical reactions in aqueous solution Volume of solution A Volume of solution B Molarity Molarity Particles Particles of A Avogadro's number Moles of A Equation coefficients Formula subscripts Moles of B Avogadro's number of B Molar mass Molar mass Grams of A Grams of B 2011 Pearson Education, Inc Percent by mass (g solute/g solution) Take 100 g solution Mass of solution Mass of solute Density Molar mass Volume of solution Moles of solute Division Molarity (moles...
Complete the table Molarity Solute Mass of solute Moles of solute Volume of solution of solution MgSO4 0.638 YLE 30.0 mL NaOH 115.0 ml 1.45 M CH3OH 15.5 g 0.520 M
Calculate the pH of each of the following strong acid solutions. Calculate the pH of each of the following strong acid solutions. (a) 0.00696 M HI pH = (b) 0.719 g of HCl in 29.0 L of solution pH = (c) 49.0 mL of 2.10 M HI diluted to 3.40 L pH = (d) a mixture formed by adding 87.0 mL of 0.000520 M HI to 47.0 mL of 0.000860 M HCI pH =
Calculate the molarity of the following solutions. Calculate the molarity of 87.0 g of HCl in 1.50 L of an HCl solution.