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Lets start by talking what the term means. Simply said, molar mass is how much one mole of a substance weighs. That substance can be an element or a compound. How to calculate molar mass with examplesWe’ll go through three examples progressing from easy to “difficult”. By the end of this post, you’ll be able to calculate the molar mass of anything. Example #1: Single element Sodium (Na) Finding the molar mass of a single element is really simple. All you need to do is find the atomic mass of the element on the periodic table and report the number with the unit grams per mole or g/mol. From this, you can see that sodium’s molar mass will be 22.99 g/mol.Example #2: Simple compound CH3OH Start by determining how many of each elements there are by looking the subscripts (small number next to the element symbol). In this compound, there are 1 C, 4 H (3+1), and 1 O. Next, multiply the number of a particular element by its molar mass. Finally, add the products together and you’ll arrive at the answer. Example #3: “Complicated” compound (NH4)2CO3 The process is very similar to calculating the molar mass of a simple compound. The only difference is you’ll need to multiply the subscript on the outside of the parenthesis by the subscripts inside the parenthesis. Start by determining how many of each elements there are. In this compound, there 2N, 8H, 1C, and 3O. Next, multiply the number of a particular element by its molar mass. Finally, add the products together and you’ll arrive at the answer. After reading and working through these three examples, you should be able to calculate the molar mass of anything. Additional ResourcesThis molar mass calculator allows you to double check if you’re getting the right answer. The mole is a counting unit to specify the number of atoms, molecules, ions or formula units in a particular chemical compound. It is similar to other counting units like a pair (2) and a dozen (12). One mole of a compound contains Avogadro’s number (6.02214076 × 1023 mol) of molecules or formula units. The molar mass of a compound defines the mass of 1 mole of that particular substance and number of grams per mole of a compound. In other words, the molar mass is the total mass of all the atoms in grams that make a mole of a particular molecule. Therefore, the units of molar mass are grams/mole.How to find the molar mass of a compound? Step 1. Make use of the chemical formula to determine the number of atoms of each element in the compound. Step 2. Multiply the atomic weight of each element with its number of atoms present in the compound. Step 3. Add up all and assign unit as grams/mole. Example. 1 What is the molar mass of sodium carbonate, Na2CO3 ? Solution Since sodium carbonate contains two atoms sodium, one atom of carbon and three atoms of oxygen. The molecular weight would be Na : 2 x 23.0 = 46 C : 1 x 12.0 = 12 O : 3 x 16 = 48 When we add up the total values i.e, 46 + 12 + 48 = 106 Therefore, the molar mass of Na2CO3 is 106 g/mole. Example 2.Identify the molar mass of calcium nitrate, Ca(NO3)2 ? Solution: Since calcium nitrate contains one atom of calcium, two atoms of nitrogen and six atoms of oxygen. Ca: 1 x 40.1 = 40.1 N: 2 x 14.0 = 28 O: 6 x 16.0 = 96 If we add all, 40.1 + 14 + 16 = 164.1 Therefore, the molar mass of Ca(NO3)2 is 164.1 g/mol. Note that the subscript two after the parentheses specifies that there are 2 nitrate ions (NO3-). Multiply the number of atoms with the subscripts outside the parenthesis. Subscripts outside the ( ) affect only the atoms inside the ( ) and not the Ca ion. To solve more examples and practice questions on molar mass, please visit Byju’s.com More Tutorials Join AUS-e-TUTE Contact Us Want chemistry games, drills, tests and more? You need to Join AUS-e-TUTE! Key Concepts⚛ 1 mole of a pure substance has a mass equal to its molecular mass(1) expressed in grams. · This is known as the molar mass, M, and has the units g mol-1 ⚛ The relationship between molar mass, mass and moles can be expressed as a mathematical equation as shown below: g mol-1 = g ÷ mol molar mass = mass ÷ moles M = m ÷ n where: M = molar mass of the pure substance (measured in g mol-1) m = mass of the pure substance (measured in grams, g) n = amount of the pure substance (measured in moles, mol) ⚛ This mathematical equation can be rearranged to give the following: (i) n = m ÷ M moles = mass ÷ molar mass (ii) m = n × M mass = moles × molar mass ⚛ To calculate the moles of pure substance: n = m ÷ M ⚛ To calculate mass of pure substance: m = n × M ⚛ To calculate molar mass of pure substance: M = m ÷ n Please do not block ads on this website. Calculating the Mass of a Pure Substance (m=nM)1 mole of a pure substance is defined as having a mass in grams equal to its relative molecular mass. This quantity is known as the molar mass (symbol M). So, mass of 1 mole of a pure substance = relative molecular mass in grams And, mass of 1 mole of a pure substance = molar mass of the pure substance (g mol-1) Or, mass of 1 mole = M (g mol-1) The table below gives the mass of 1 mole of a number of common pure substances:
From the table we see that 1 mole of water has a mass of 18.016 grams, which isn't very much (about the mass of water in a couple of small ice-cubes you'd make in your family freezer). But what if you had 10 moles of water? What would be the mass of 10 moles of water? If 1 mole of water has a mass of 18.016 g, then 10 moles of water must have ten times more mass: mass of 10 moles of water = 10 × mass of 1 mole of water mass of 10 moles of water = 10 × 18.016 = 180.16 g (about the mass of water you could put in a small glass) So, if we only had ½ mole of water, what mass of water would we have? If 1 mole of water has a mass of 18.016 g, then ½ mole of water must have ½ the mass: mass of ½ mole of water = ½ × mass of 1 mole of water mass of ½ mole of water = ½ × 18.016 = 9.008 g In both of the examples above, we can calculate the mass of water in grams by multiplying the moles of water by the mass of 1 mole of water in grams: mass water = moles of water × mass of 1 mole water because the mass of 1 mole of water in grams is known as its molar mass, we can write: mass water = moles of water × molar mass of water The table below compares the mass of different amounts of water in moles:
From the data in the table we can generalise and say that for any pure substance the mass of substance in grams is equal to the moles of substance multiplied by the mass of 1 mole of the substance: mass = moles × mass of 1 mole and since mass of 1 mole of a substance (in grams) = molar mass (in grams per mole) mass (g) = moles × molar mass (g mol-1) m = n × M where m = mass of pure substance in grams n = amount of pure substance in moles M = molar mass of pure substance in grams per mole We could also plot the data in the table above on a graph as shown below:
This graph above shows a straight line that passes through the origin (0,0) so the equation for the line is: y = slope × x where: y is mass of water (g) We can determine the slope of the line using 2 points on the straight line, for example, (0,0) and (15.0, 270.24): Therefore the equation for this line is: mass (H2O) = molar mass (H2O) × moles (H2O) In general: mass (g) = molar mass (g mol-1) × moles (mol) From the data in the table and its graphical representation, we can generalise and say that for any pure substance the mass of substance in grams is equal to the moles of substance multiplied by the mass of 1 mole of the substance: mass = moles × mass of 1 mole and since mass of 1 mole of a substance (in grams) = molar mass (in grams per mole) mass (g) = moles × molar mass (g mol-1) m = n × M Follow these steps to calculate the mass of a pure substance given the amount of substance in moles: Step 1. Extract the data from the question: mass = m = ? (units are grams) moles = n = write down what you are told in the question molar mass = M = write down what you are told in the question (units are g mol-1) (you may need to calculate this using the molecular formula of the pure substance and a Periodic Table) Step 2. Check the units for consistency and convert if necessary: The amount of substance must be in moles (mol) ! If amount is given in millimoles (mmol), divide it by 1,000 to give the amount in moles (mol). If amount is given in micromoles (μmol), divide it by 1,000,000 to give an amount in moles (mol). If amount is given in kilomoles (kmol), multiply it by 1,000 to give an amount in moles (mol). Step 3. Write the mathematical equation (mathematical formula): mass = moles × molar mass or m = n × M Step 4. Substitute in the values and solve the equation to find the value of mass, m, in grams (g). ↪ Back to top Calculating the Moles of a Pure Substance (n=m/M)In the discussion above, we discovered that we could calculate the mass of a pure substance using the moles and molar mass of the substance: mass (g) = moles (mol) × molar mass (g mol-1) How would we calculate the moles of pure substance if we knew the mass of the substance? (a) We could use some algebra: divide both sides of the equation by the molar mass:
moles = mass ÷ molar mass n = m ÷ M or (b) We could use some logic:
By inspection of units we see that dividing molar mass by mass will give us a quantitiy in units of "mol-1" molar mass/mass = g mol-1/g = mol-1 If we turn this upside down (in mathematical terms, take the reciprocal) we get a quantity with units of "mol" which is what we want: mass/molar mass = g/g mol-1 = mol so moles = mass ÷ molar mass n = m ÷ M Follow these steps to calculate the amount of pure substance in moles given the mass of substance: Step 1. Extract the data from the question: mass = m = write down what you are told in the question moles = n = ? (units are mol) molar mass = M = write down what you are told in the question (units are g mol-1) (you may need to calculate this using the molecular formula of the pure substance and a Periodic Table) Step 2. Check the units for consistency and convert if necessary: Mass must be in grams ! If mass is given in milligrams (mg), divide it by 1,000 to give the mass in grams (g). If mass is given in micrograms (μg), divide it by 1,000,000 to give a mass in grams (g). If mass is given in kilograms (kg), multiply it by 1,000 to give a mass in grams (g). Step 3. Write the mathematical equation (mathematical formula): moles = mass ÷ molar mass or n = m ÷ M Step 4. Substitute in the values and solve the equation to find moles of substance (mol). ↪ Back to top Calculating the Molar Mass of a Pure Substance (M=m/n) What if you knew the amount of a pure substance in moles and its mass? Recall that mass = moles × molar mass or m = n × M (a) We could use some algebra: divide both sides of the equation by the moles:
molar mass = mass ÷ moles M = m ÷ n or (b) We could use some logic: By inspection of units we see that dividing the mass in grams by the amount in moles we arrive at a quantity with the units grams per mole (g mol-1) which are the units for molar mass. Therefore, molar mass (g mol-1) = mass (g) ÷ moles (mol) or you can write M = m ÷ n Follow these steps to calculate the molar mass of a pure substance given the amount of substance in moles and the mass of substance: Step 1. Extract the data from the question: mass = m = write down what you are told in the question moles = n = write down what you are told in the question molar mass = M = ? (units are g mol-1) Step 2. Check the units for consistency and convert if necessary: Mass must be in grams (g)! Amount, moles, must be in moles (mol)! Step 3. Write the mathematical equation (mathematical formula): molar mass = mass ÷ moles or M = m ÷ n Step 4. Substitute in the values and solve the equation to find the molar mass of the substance in grams per mole. ↪ Back to top Worked Examples of Calculating Mass, Moles, Molar MassIn each of the worked examples below, you will be asked to calculate either the moles, mass, or molar mass of a pure substance. To answer each question correctly you will need to:
Worked Example: mass = moles × molar mass (m=n×M)Question: Calculate the mass of 0.25 moles of water, H2O. Solution: Step 1. Extract the data from the question: moles = n = 0.25 mol molar mass = M = (2 × 1.008) + 16.00 = 18.016 g mol-1 mass = m = ? g Step 2. Check the data for consistency: Is the amount of water in moles (mol)? Yes. Step 3. Write the mathematical equation (mathematical formula): mass = moles × molar mass or m = n × M Step 4. Substitute the values into the equation and solve for mass (g): mass = m = 0.25 mol × 18.016 g mol-1 = 4.5 g Worked Example: moles = mass ÷ molar mass (n=m/M)Question: Calculate the amount of oxygen gas, O2, in moles present in 124.5 g of oxygen gas. Solution: Step 1. Extract the data from the question: mass = m = 124.5 g molar mass = M = 2 × 16.00 =32.00 g mol-1 moles = n = ? mol Step 2. Check the data for consistency: Is the mass of oxygen gas in grams (g)? Yes. Step 3. Write the mathematical equation (mathematical formula): moles = mass ÷ molar mass or n = m ÷ M Step 4. Substitute the values into the equation and solve to find moles of oxygen gas: moles = n = 124.5 g ÷ 32.00 g mol-1 = 3.891 mol Worked Example: molar mass = mass ÷ moles (M=m/n)Question: Calculate the molar mass of a pure substance if 1.75 moles of the substance has a mass of 29.79 g. Solution: Step 1. Extract the data from the question: mass = m = 29.79 g moles = n = 1.75 mol Step 2. Check the data for consistency: Is the mass of in grams (g)? Yes. We do not need to convert this. Step 3. Write the equation: molar mass = mass ÷ moles or M = m ÷ n Step 4. Substitute the values into the equation and solve for molar mass: molar mass = M = 29.79 g ÷ 1.75 mol = 17.0 g mol-1 ↪ Back to top Problem Solving Using Moles, Mass, and Molar MassThe Problem: Calcium carbonate, CaCO3, is an important industrial chemical. Chris the Chemist has an impure sample of calcium carbonate. The mass of the impure sample is 0.1250 kg and it is composed of 87.00% (by mass) calcium carbonate. Before Chris can use this calcium carbonate in a chemical reaction, Chris needs to know the amount, in moles, of calcium carbonate present in this sample. Calculate the amount of calcium carbonate in moles present in this impure sample of calcium carbonate. Solving the Problem using the StoPGoPS model for problem solving:
↪ Back to top Sample Question: Moles, Mass, and Molar MassDetermine the mass in grams of 0.372 moles of solid rhombic sulfur (S8). ↪ Back to top
Footnotes: (1) Molecular mass is also known as molecular weight, formula weight or formula mass ↪ Back to Key Concepts |