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Hydrate Calculations. Hydrates Hydrates are ionic compounds that have crystalline structures involving H 2 O In MgSO 4. 7H 2 O, there are 7 water molecules.

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Presentation on theme: "Hydrate Calculations. Hydrates Hydrates are ionic compounds that have crystalline structures involving H 2 O In MgSO 4. 7H 2 O, there are 7 water molecules."— Presentation transcript:

1 Hydrate Calculations

2 Hydrates Hydrates are ionic compounds that have crystalline structures involving H 2 O In MgSO 4. 7H 2 O, there are 7 water molecules present for every 1 MgSO 4. Scientists do not always know how many H 2 O molecules are present, but this can be determined through calculations

3

4 Anhydrous Compounds Anhydrous Compounds do not have water molecules incorporated Instead they have the ability to absorb water from the local environment.

5 Applications Hydrates can be used in Fire Retardation Anhydrates can be used as dessicants (ie. Keep the atmosphere dry) Anhydrates can indicate the presence of water.

6 Example 1: Calculate the percentage of water in Na 2 S 2 O 3. 5H 2 O % H 2 O = x 100 = x 100 = 36.30 % Mass of water Mass of hydrate 5(18.02 g/mol) 248.22 g/mol

7 Example 2: Calculate the mass of water in 215 g of Na 2 S 2 O 3. 5H 2 O Solution 1: Use the percentage 36.30% (from the previous example). In Na 2 S 2 O 3. 5H 2 O, there is 36.30% of water. In 215 g, there is x 215 g = 78.0 g of water 36.30 100

8 Solution 2: = m( H 2 O) = 78.0 g M(H 2 O) M (Total) m(H 2 O) M(Total) 5(18.02 g/mol) 248.22 g/mol m(H 2 O) 215 g

9 Example 3: A hydrate of barium chloride (BaCl 2. x H 2 O) has a mass of 1.500g. When heated to drive off the water, the residue (BaCl 2 ) has a mass of 1.279 g Step 1: Calculate the percentage of water in the hydrate. BaCl 2. x H 2 O (s)  BaCl 2 (s) + x H 2 O 1.500 g1.279g 1.500g – 1.279g = 0.221 g % H 2 O = x 100 = x 100 = 14.7% Mass of water Mass of hydrate 0.221 g 1.500 g

10 Step 2: Calculate the formula of the hydrate Mole Calculation: Using n=m/M BaCl 2 H 2 O n =n= = 0.006140 mol = 0.0123 mol 1.279g 208.3 g/mol 0.221 g 18.02 g/mol

11 Step 3: Ratio Calculation: Divide by the smallest number of moles to figure out the ratio between the atoms BaCl 2 H 2 O= =1= 2 Therefore the formula is BaCl 2. 2H 2 O 0.006140 mol 0.0123 mol 0.006140 mol

12 Example 4: A hydrate of barium hydroxide (Ba(OH) 2. x H 2 O) has a mass of 50.0g. When heated to drive off the water, the residue (Ba(OH) 2 ) has a mass of 27.2 g Step 1: Calculate the percentage of water in the hydrate. Ba(OH) 2. x H 2 O (s)  Ba(OH) 2 (s) + x H 2 O 50.0 g 27.2g 50.0g – 27.2g = 22.8 g % H 2 O = x 100 = x 100 = 45.6% Mass of water Mass of hydrate 22.8 g 50.0 g

13 Step 2: Calculate the formula of the hydrate Mole Calculation: Using n=m/M Ba(OH) 2 H 2 O n =n= = 0.159 mol = 1.27 mol 27.2g 171.3 g/mol 22.8 g 18.02 g/mol

14 Step 3: Ratio Calculation: Divide by the smallest number of moles to figure out the ratio between the atoms Ba(OH) 2 H 2 O= =1= 8 Therefore the formula is Ba(OH) 2. 8H 2 O 0.159 mol 1.27 mol 0.159 mol

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