Express 50mM NaCl (MW 58.5 g/mol) concentration in g/L, %w/v and M (mol/L)

Calculate the percent strength of a 200mL solution containing 350 milliosmoles of NaCl. (MW of NaCl...

Calculate the percent strength of a 200mL solution containing 350 milliosmoles of NaCl. (MW of NaCl = 58.5)? You are trying to prepare 730 mL of a solution containing 145 mEq/L of NaCl (MW = 58.5), how many milligrams of NaCl should be used in preparing that solution? Calculate the number of milliosmoles of anhydrous dextrose in 2750 mL of 7% w/v solution of anhydrous dextrose (MW = 180) in water?

1. Convert a 0.1 M NaCl to a % (w/v). 2. Convert 5% (w/v) sucrose to...

1. Convert a 0.1 M NaCl to a % (w/v). 2. Convert 5% (w/v) sucrose to a Molarity (M). 3. Which solution was more concentrated, the 0.1 M NaCl or 5% (w/v) sucrose? 4. How could you make a dilute solution (ex. 0.5% (w/v) sucrose) more concentrated (without adding more sucrose)?

What is the concentration of 2.9 gram NaCl in a 500 mL solution (MW of NaCl...

What is the concentration of 2.9 gram NaCl in a 500 mL solution (MW of NaCl is 58)? Select one: a. 0.1 M b. 0.25 M c. 0.5 M d. 1.0 M e. 50 mM

Describe the preparation of 1) 3.00 L of 22.0% (w/v) aqueous glycerol (C3H8O3, 92.1 g/mol). Weigh...

Describe the preparation of 1) 3.00 L of 22.0% (w/v) aqueous glycerol (C3H8O3, 92.1 g/mol). Weigh _ g glycerol and add enough water to give a final volume of _ L. 2) 3.00 kg of 22.0% (w/w) aqueous glycerol. Mix _ g glycerol with _ kg water. 3) 3.00 L of 22.0% (v/v) aqueous glycerol. Dilute _ mL glycerol with enough water to give a final volume of _ L.

How many grams of potassium dihydrogen phosphate (MW=136.09 g/mol) and dipotassium hydrogen phosphate (MW=174.18 g/mol) would...

How many grams of potassium dihydrogen phosphate (MW=136.09 g/mol) and dipotassium hydrogen phosphate (MW=174.18 g/mol) would be needed to produce a 2 L buffer solution of pH 6.8 at 100 mM solute concentration? The pKa’s for phosphoric acid, a triprotic acid, are 2.15, 6.82 and 12.38.

You take a solution of compound M that has a concentration of 90 mg/L. Compound M...

You take a solution of compound M that has a concentration of 90 mg/L. Compound M has a molecular weight of 25 g/mol. It is first diluted by a factor of 15, and then by a factor of 20. What is the concentration of the final diluted solution in % (w/v)?

A b and c are containers containing respectively 10 g NACl in 50 ml aqueous solution,...

A b and c are containers containing respectively 10 g NACl in 50 ml aqueous solution, 0.20 mol NACl in 100 mL of aqueous solution and 500 mL of aqueous MgCl2 solution whose concentration is 1 mol / L. (Data: M (NA) = 23 g / mol; M (Mg) = 24.3 g / mol; M (Cl) = 35.5 g / mol) Mixing the three solutions determine the concentrations in mol / L of NaCl and MgCl2

How would you prepare 2 L of 0.85% NaCl? (MW=58.44 g/mol) (2 pts) 2. You need...

How would you prepare 2 L of 0.85% NaCl? (MW=58.44 g/mol) (2 pts) 2. You need to do a 1/25th dilution, explain how you would achieve this dilution. (2 pts) 3.If you performed a 1/10th dilution two times, what is the final dilution. (2 pts) 4.Your protocol calls for working with a 1.5 x 10-4 M boric acid solution. To save shelf space, you decide to make up a 20X stock solution. What is the molarity of the stock solution...

You are provided with a 0.1 mM solution of proflavine (MW: 209.25 g/mol), a 6 mM...

You are provided with a 0.1 mM solution of proflavine (MW: 209.25 g/mol), a 6 mM solution of DNA, and solid NaCl (MW: 58.44 g/mol). How many mg of NaCl would you need to make a 15 mL of the following stock solution: 1 µM proflavine, 100 mM NaCl, and 60 µM DNA? Round your answer to one decimal digit. State only the number, not the unit.

1) A solution was prepared by dissolving 489 milligrams of potassium sulfate(mw=174.24 g/mol) in 537mL of...

1) A solution was prepared by dissolving 489 milligrams of potassium sulfate(mw=174.24 g/mol) in 537mL of water. Calculate the following: a) [K+] b) % (w/v) K2SO4 c) pK+ d) pSO4^-2