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Key Concepts⚛ Parts Per Million is a measurement of the concentration of a soluton. ⚛ parts per million is abbreviated as ppm ⚛ 1 ppm is one part by weight, or volume, of solute in 1 million parts by weight, or volume, of solution. ⚛ Percentage composition concentrations can be converted to parts per million concentration by multiplying by 10 000 · ppm = 10 000 × percentage concentration value ⚛ For very dilute solutions, weight/weight (w/w) and weight/volume (w/v) concentrations are sometimes expressed in parts per million. · NOTE: weight/weight (w/w) may also be referred to as mass/mass (m/m) · NOTE: weight/volume (w/v) may also be referred to as mass/volume (m/v) or mass concentration. ⚛ In weight of solute per volume of solution (w/v or m/v) terms, · 1 ppm = 1g m-3 = 1 mg L-1 = 1 μg mL-1 ⚛ In weight of solute per weight of solution (w/w or m/m) terms, · 1 ppm = 1 mg kg-1 = 1 μg g-1 Please do not block ads on this website. Parts per million and Percentage Concentration CalculationsRecall that, in general, concentration tells you how much solute is present in a solution. A concentration in parts per million (ppm) tells you how many parts of solute are present in 1 000 000 parts of solution. For example, a saline solution is a dilute aqueous solution of sodium chloride, NaCl(aq), with a concentration of 9 000 ppm. But the concentration of a solution is sometimes given as a percentage. For example, the ethanol content in wine is often given as about 12%(v/v), that is, 12% of the volume of the wine is ethanol, or, there are 12 parts of ethanol in every 100 parts of solution. We could write a mathematical expression equating parts per hundred (a percentage) and parts per million (ppm) as shown below:
To convert x% to ppm we multiply both sides of the equation by 1 000 000 as shown below:
To convert a percentage concentration to parts per million we multiply the % value (x) by 10 000. The ethanol concentration of wine was given as 12%(v/v) so the value of x is 12. We can now convert this to a concentration in parts per million (ppm) by multiplying x by 10 000 as shown below:
This is true for other similar percentage concentrations: For mass/volume percentage concentrations (m/v% or w/v%): For mass/mass percentage concentrations (m/m% or w/w%): y ppm = x × 10 000 And a word of warning ... m/v concentration is NOT the same as a %(m/v) concentration w/v concentration is NOT the same as a %(w/v) concentration m/m concentration is NOT the same as a %(m/m) concentration w/v concentration is NOT the same as a %(w/v) concentration v/v concentration is NOT the same as a %(v/v) concentration m/v (w/v) and m/m (w/w) concentrations and parts per million will be discussed in the following section (after the worked examples of percentage concentration and ppm below). Worked Examples: Converting Percentage Concentration to ppmFollow these 4 steps to convert percentage concentration to parts. per million concentration: Step 1: Extract the data from the question percentage concentration = x% parts per million concentration = y ppm Step 2: Write the definition of ppm to be used y ppm = x × 10 000 Step 3: Substitute in the values and solve Step 4: Write the concentration in ppm concentration = y ppm Question 1. A sample of beer has an ethanol concentration of 4%(v/v). What is the ethanol concentration of this beer in ppm? Solution: Step 1: Extract the data from the question ethanol concentration = %(v/v) = 4% x = 4 concentration = y ppm Step 2: Write the definition of ppm to be used y ppm = x × 10 000 Step 3: Substitute in the values and solve y ppm = 4 × 10 000 y ppm = 40 000 Step 4: Write the concentration in ppm ethanol concentration in beer = 40 000 ppm Question 2. A sample of seawater has a chloride concentration of 1.94%(m/v). What is the chloride concentration of this seawater in ppm? Solution: Step 1: Extract the data from the question chloride concentration = %(m/v) = 1.94% x = 1.94 concentration = y ppm Step 2: Write the definition of ppm to be used y ppm = x × 10 000 Step 3: Substitute in the values and solve y ppm = 1.94 × 10 000 y ppm = 19 400 Step 4: Write the concentration in ppm chloride concentration in seawater = 19 400 ppm Back to top Parts per million Unit CalculationsRecall that, in general, concentration tells you how much solute is present in a solution. concentration = amount of solute ÷ amount of solution A concentration in parts per million (ppm) may refer to the mass of solute present in the volume of solution (w/v or m/v) or it may refer to the mass of solute present in a mass of solution (w/w or m/m). In SI units, w/w concentration (m/m concentration) would be given in kilograms of solute per kilograms of solution. So, a 1 part per million (1 ppm) solution would be 1 kg of solute per 1 million kilograms of solution. And these masses are just too large to be useful in Chemistry laboratory. But we can divide the masses of solute and solution by 1 million to arrive at more useful units:
Recall that there are 1 000 grams in a kilogram, so now we can write
Recall that 10-3 g = 1 mg (1 milligram) and now we can write
If we divide the masses of solute and solution by 1 000, we arrive at
Recall that 10-3 mg = 1 μg and 10-3 kg = 1 g so
This allows us to establish that parts per million concentration (ppm) is equivalent to the following common m/m (w/w) concentrations: 1 ppm = 1 mg solute/1 kg solution = 1 μg solute/1 g solution In SI units, w/v concentration (m/v concentration) would be given in kilograms of solute per litres of solution. So, a 1 part per million (1 ppm) solution would be 1 kg of solute per 1 million litres of solution. And this mass and volume are just too large to be useful in Chemistry laboratory. But we can divide the mass of solute and volume of solution by 1 million to arrive at more useful units:
Recall that there are 1 000 grams in a kilogram, so now we can write
Recall that 10-3 g = 1 mg (1 milligram) and now we can write
If we divide the mass of solute and volume of solution by 1 000, we arrive at
Recall that 10-3 mg = 1 μg and that 10-3 L = 1 mL then
This allows us to establish that parts per million concentration (ppm) is equivalent to the following common m/v (w/v) concentrations: 1 ppm = 1 mg solute/1 L solution = 1 μg solute/1 mL solution To calculate the concentration of a solution in parts per million using the mass of solute and the volume or mass of solution : ⚛ weight/volume (w/v or m/v) ppm = mass of solute (g) ÷ volume of solution (m3) ppm = mass of solute (mg) ÷ volume of solution (L) ppm = mass of solute (μg) ÷ volume of solution (mL) ⚛ weight/weight (w/w or m/m) ppm = mass of solute (mg) ÷ mass of solution (kg) ppm = mass of solute (μg) ÷ mass of solution (g) You should practice rearranging the equations above in order to find mass of solute, volume of solution or mass of solution: ⚛ To calculate mass of solute: mass of solute (mg) = ppm × volume of solution (L) mass of solute (μg) = ppm × volume of solution (mL) mass of solute (mg) = ppm × mass of solution (kg) mass of solute (μg) = ppm × mass of solution (g) ⚛ To calculate volume of soution volume (L) = mass (mg) of solute ÷ ppm volume (mL) = mass (μg) of solute ÷ ppm ⚛ To calculate mass of soution mass of solution (kg) = mass of solute (mg) ÷ ppm mass of solution (g) = mass of solute (μg) ÷ ppm Back to top Converting Mass Concentrations (w/v or m/v) to ppmRecall the definition of parts per million in mass of solute per volume of solution units derived above: 1 ppm = 1 g m-3 = 1 mg L-1 = 1 μg mL-1 Some sample questions with worked solutions of converting w/v (m/v) to ppm are given below. Question 1. A solution has a concentration of 1.25 g L-1. What is its concentration in ppm? Solution: Step 1: Extract the data from the question concentration = w/v = m/v = 1.25 g L-1 mass of solute = 1.25 g volume of solution = 1 L Step 2: Write the definition of ppm to be used 1 ppm = 1 g m-3 = 1 mg L-1 = 1 μg mL-1 Step 3: Convert the mass of solute to required units volume of solution is in litres (L) so mass of solute must be in milligrams (mg) mass = 1.25 g = 1.25 g × 1000 mg/g = 1250 mg Step 4: Calculate concentration: divide mass (mg) by volume (L) concentration = mass (mg) ÷ volume (L) concentration = 1250 mg ÷ 1 L = 1250 mg L-1 Step 5: Write the concentration in ppm 1 ppm = 1 mg L-1 therefore 1250 mg L-1 = 1250 ppm 1.25 g L-1 = 1250 ppm Question 2. A solution has a concentration of 0.5 mg mL-1. What is its concentration in ppm? Solution: Step 1: Extract the data from the question concentration = w/v = m/v = 0.5 mg mL-1 mass of solute = 0.5 mg volume of solution = 1 mL Step 2: Write the definition of ppm to be used 1 ppm = 1 g m-3 = 1 mg L-1 = 1 μg mL-1 Step 3: Convert the volume of solution to required units mass of solute is in milligrams (mg) so volume of solution must be in litres (L) volume = 1 mL = 1 mL ÷ 1000 mL L-1 = 0.001 L Step 4: Calculate concentration: divide mass (mg) by volume (L) ppm = mass (mg) ÷ volume (L) ppm = 0.5 mg ÷ 0.001 mL = 500 mg L-1 Step 5: Write the concentration in ppm 1 ppm = 1 mg L-1 therefore 500 mg L-1 = 500 ppm 0.5 mg mL-1 = 500 ppm Back to top Converting weight/weight (w/w or m/m) concentrations to ppmRecall the definition of parts per million in mass of solute per mass of solution units derived previously: 1 ppm = 1 mg kg-1 = 1 μg g-1 Some sample questions with worked solutions of converting w/w (m/m) to ppm are given below. Question 1. A solution has a concentration of 0.033 g kg-1. What is its concentration in ppm? Solution: Step 1: Extract the data from the question concentration = w/w = 0.033 g kg-1 mass of solute = 0.033 g mass of solution = 1 kg Step 2: Write the definition of ppm to be used 1 ppm = 1 mg kg-1 = 1 μg g-1 Step 3: Convert the mass of solute to required units mass of solution is in kilograms (kg) so mass of solute must be in milligrams (mg) mass = 0.033 g = 0.033 g × 1000 mg/g = 33 mg Step 4: Calculate concentration: divide mass of solute (mg) by mass of solution (kg) concentration = mass of solute (mg) ÷ mass of solution (kg) concentration = 33 mg ÷ 1 kg = 33 mg kg-1 Step 5: Write the concentration in ppm 1 ppm = 1 mg kg-1 therefore 33 mg kg-1 = 33 ppm 0.033 g kg-1 = 33 ppm Question 2. A solution has a concentration of 2250 μg kg-1. What is its concentration in ppm? Solution: Step 1: Extract the data from the question concentration = w/w = 2250 μg kg-1 mass of solute = 2250 μg mass of solution = 1 kg Step 2: Write the definition of ppm to be used 1 ppm = 1 mg kg-1 = 1 μg g-1 Step 3: Convert the mass of solute to required units mass of solution is in kilograms (kg) so mass of solute must be in milligrams (mg) mass = 2250 μg = 2250 μg ÷ 1000 μg mg-1 = 2.25 mg Step 4: Calculate concentration: divide mass of solute (mg) by mass of solution (kg) concentration = mass of solute (mg) ÷ mass of solution (kg) concentration = 2.25 mg ÷ 1 kg = 2.25 mg kg-1 Step 5: Write the concentration in ppm 1 ppm = 1 mg kg-1 therefore 2.25 mg kg-1 = 2.25 ppm 2250 μg kg-1 = 2.25 ppm Back to top Problem Solving: Parts Per Million (ppm) ConcentrationWe will use the following steps to solve parts per million concentration (ppm) problems:
Question 1. 150 mL of an aqueous sodium chloride solution contains 0.0045 g NaCl. Calculate the concentration of NaCl(aq) in parts per million (ppm). Solution: Step 1: Extract the data from the question mass of solute = 0.0045 g volume of solution = 150 mL concentration of solution = ? ppm Step 2: Write the definition of ppm to be used concentration is given as weight/volume (w/v or m/v) 1 ppm = 1 g m-3 = 1 mg L-1 = 1 μg mL-1 Step 3: Convert the mass of solute to required units volume of solution is in milliltres (mL) so mass of solute must be in micrograms (μg) mass = 0.0045 g = 0.0045 g × 106 μg/g = 4500 μg Step 4: Calculate concentration: divide mass of solute (μg) by volume of solution (mL) concentration = mass of solute (μg) ÷ volume of solution (mL) concentration = 4500 μg ÷ 150 mL = 30 μg mL-1 Step 5: Write the concentration in ppm 1 ppm = 1 μg mL-1 therefore 30 μg mL-1 = 30 ppm concentration = 30 ppm Question 2. What mass in milligrams of potassium nitrate is present in 0.250 kg of a 500 ppm aqueous solution of potassium nitrate, KNO3(aq)? Solution: Step 1: Extract the data from the question mass of solute = ? mg mass of solution = 0.250 kg concentration = 500 ppm Step 2: Write the definition of ppm to be used concentration is given as weight/weight (w/w or m/m) 1 ppm = 1 mg kg-1 = 1 μg g-1 rearrange this to find mass of solute (mg) : mass solute (mg) = concentration (ppm) × mass of solution (kg) Step 3: Convert mass and or volume units Since mass of solution is given in kg, mass of solute will be calculated in mg and no unit conversions are necessary. Step 4: Substitute in the values and solve for mass of solute mass solute (mg) = concentration (ppm) × mass of solution (kg) mass solute (mg) = 500 ppm × 0.250 kg = 125 mg Step 5: Write answer mass(KNO3) = 125 mg Question 3. A student is provided with 500 mL of a 600 ppm solution of sucrose. What volume of this solution in millilitres contains 0.150 g of sucrose? Solution: Step 1: Extract the data from the question volume of solution required = ? mL mass of solute = 0.150 g concentration = 600 ppm Step 2: Write the definition of ppm to be used concentration is given as weight/volume (w/v or m/v) 1 ppm = 1 g m-3 = 1 mg L-1 = 1 μg mL-1 rearrange this to find volume of solution (mL) : volume of solution (mL) = mass of solute (μg) ÷ concentration (ppm) Step 3: Convert mass in grams to micrograms Since we need to find a volume in mL, we need to convert mass in g to μg mass of solute = 0.150 g × 106 μg/g = 150 000 μg Step 4: Substitute in the values and solve for volume of solution volume of solution (mL) = mass of solute (μg) ÷ concentration (ppm) volume of solution (mL) = 150 000 μg ÷ 600 ppm = 250 mL Step 5: Write answer volume of solution (mL) = 250 mL Back to top Sample Question: ppm calculationsA solution is prepared by dissolving 3.95 g of solid sodium chloride in enough distilled water to make 250.0 mL of solution. Determine the concentration of this solution in parts per million. ↪ Back to top |