Solution Concentration Calculations, Cheat Sheet of Earth science

A worksheet on various methods for measuring and expressing the concentration of solutions, including percent by mass, percent by volume, mass/volume percent, parts per million, and molality. The worksheet includes 13 problems that require students to calculate the concentration of different solutions using these different units and techniques. Key concepts in solution chemistry, such as molarity, molality, and the conversion between different concentration units. By studying this document, students can develop a strong understanding of solution concentration and the ability to perform calculations to determine the composition of various solutions. This worksheet can be a valuable resource for students in chemistry courses, particularly those covering topics related to solutions and their properties.

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2023/2024

Uploaded on 02/18/2024

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Solution Concentrations Worksheet (Section 12.3)
Name ________________________ Period:
Measuring Concentration: There are several different ways to measure and express the concentration of a
solution. Molarity (Section 12.3) the term we learned earlier, refers to the concentration of a solution
expressed in moles of solute per liter of solution. We also use several other units, including the following:
1. Percent by Mass x100%
2. Percent by Volume x100%
3. Mass/Volume Percent x100% (units are used in medicine)
4. Parts per million
For this type of unit, these equivalents work for water solutions:
1 ppm = 1 mg/L 1 ppb = 1μg/L 1 ppt = 1 ng/L
ppm = parts per million ppb = billion ppt = trillion
5. Molality this unit is independent of temperature
Problems – Do work on Separate Paper. Show Dimensional Analysis.
1. Glucose is a sugar that is found abundantly in nature. What is the percent by mass of a solution made by
dissolving 163 g of glucose in 755 g of water? Do you need to know the formula of glucose? Why or why
not?
2. What is the mass percent sucrose in a solution obtained by mixing 225 g of an aqueous solution that is
6.25% sucrose by mass with 135 g of an aqueous solution that is 8.20% sucrose by mass?
3. Determine the volume percent of toluene in a solution made by mixing 40.0 mL toluene with 75.0 mL of
benzene.
4. What is the concentration of Na+, in parts per million by mass, in 0.00152 M Na2SO4?
5. What is the molality of a solution prepared by dissolving 225 mg of glucose (C6H12O6) in 5.00 mL of
ethanol (density = 0.789 g/mL)
6. How many milliliters of water (density = 0.998 g/mL) are required to dissolve 25.0 g of urea (CO(NH2)2)
in order to produce a solution that is 1.65 m? (m is the abbreviation for molality)
7. Describe the process you would use in order to prepare 5.00 kg of an aqueous solution that is 8.00% NaCl
by mass.
8. What is the mass percent of solute when 4.12 g is dissolved in 100.0 g of water?
9. What is the volume percent of 10.00 g of acetone (d = 0.789 g/mL) in 1.55 L of an acetone-water
solution?
10. On average, glucose makes up about 0.10% of human blood, by mass. What is the approximation
concentration of glucose in blood in milligrams per deciliter? (You have to assume something about blood).
11. Convert 0.0035% NaCl by mass into parts per million of NaCl.
12. Convert 2.4 ppm F- into molarity of fluoride ion.
13. Calculate the molality of a solution prepared by dissolving 125 mL of pure methanol (density = 0.791
g/mL) into 275 g of ethanol.

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Solution Concentrations Worksheet (Section 12.3) Name ________________________ Period: Measuring Concentration : There are several different ways to measure and express the concentration of a solution. Molarity (Section 12.3) the term we learned earlier, refers to the concentration of a solution expressed in moles of solute per liter of solution. We also use several other units, including the following:

  1. Percent by Mass x100%
  2. Percent by Volume x100%
  3. Mass/Volume Percent x100% (units are used in medicine)
  4. Parts per million For this type of unit, these equivalents work for water solutions: 1 ppm = 1 mg/L 1 ppb = 1μg/L 1 ppt = 1 ng/L ppm = parts per million ppb = billion ppt = trillion
  5. Molality this unit is independent of temperature

Problems – Do work on Separate Paper. Show Dimensional Analysis.

  1. Glucose is a sugar that is found abundantly in nature. What is the percent by mass of a solution made by dissolving 163 g of glucose in 755 g of water? Do you need to know the formula of glucose? Why or why not?
  2. What is the mass percent sucrose in a solution obtained by mixing 225 g of an aqueous solution that is 6.25% sucrose by mass with 135 g of an aqueous solution that is 8.20% sucrose by mass?
  3. Determine the volume percent of toluene in a solution made by mixing 40.0 mL toluene with 75.0 mL of benzene.
  4. What is the concentration of Na+, in parts per million by mass, in 0.00152 M Na 2 SO 4?
  5. What is the molality of a solution prepared by dissolving 225 mg of glucose (C 6 H 12 O 6 ) in 5.00 mL of ethanol (density = 0.789 g/mL)
  6. How many milliliters of water (density = 0.998 g/mL) are required to dissolve 25.0 g of urea (CO(NH 2 ) 2 ) in order to produce a solution that is 1.65 m? ( m is the abbreviation for molality)
  7. Describe the process you would use in order to prepare 5.00 kg of an aqueous solution that is 8.00% NaCl by mass.
  8. What is the mass percent of solute when 4.12 g is dissolved in 100.0 g of water?
  9. What is the volume percent of 10.00 g of acetone (d = 0.789 g/mL) in 1.55 L of an acetone-water solution?
  10. On average, glucose makes up about 0.10% of human blood, by mass. What is the approximation concentration of glucose in blood in milligrams per deciliter? (You have to assume something about blood).
  11. Convert 0.0035% NaCl by mass into parts per million of NaCl.
  12. Convert 2.4 ppm F-^ into molarity of fluoride ion.
  13. Calculate the molality of a solution prepared by dissolving 125 mL of pure methanol (density = 0. g/mL) into 275 g of ethanol.