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31 May, 22:26

A 500-g sample of Al2 (SO4) 3 is reacted with 450 g of Ca (OH) 2. A total of 596 g of CaSO4 is produced. What is the limiting reagent in this reaction, and how many moles of excess reagent are unreacted?

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  1. 31 May, 23:28
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    The chemical reaction is as follows:

    Al2 (SO4) 3 + 3Ca (OH) 2 → 3CaSO4 + 2Al (OH) 3

    Explanation:

    1mol of Al2 (SO4) 3 will react with 3mol Ca (OH) 2 to produce 3mol CaSO4 and 2 mol Al (OH) 3.

    First we have to find the number of moles of Al2 (SO4) 3:

    Number of moles = Mass / Molar mass

    Mass of Al2 (SO4) 3 = 500g

    Molar mass of Al2 (SO4) 3 = 342.15 g/mol

    Number of moles = 500 / 342.15

    Number of moles = 1.461 mol Al2 (SO4) 3

    Multiplying the coeffecient of Ca (OH) 2 with 1.461:

    = 3*1.461 = 4.383 mol Ca (OH) 2

    Now we have to find the number of moles of Ca (OH) 2:

    Mass of Ca (OH) 2 = 450g

    Molar mass of Ca (OH) 2 = 74.09 g/mol

    Number of moles = 450 / 74.09

    Number of moles = 6.074 mol Ca (OH) 2

    We need 4.383mol to react completely with the Al2 (SO4) 3, so the Ca (OH) 2 is in excess, and the Al2 (SO4) 3 is the limiting reactant.

    Excess unreacted: 6.074-4.383 = 1.69mol Ca (OH) 2 unreacted.
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Home » Chemistry » A 500-g sample of Al2 (SO4) 3 is reacted with 450 g of Ca (OH) 2. A total of 596 g of CaSO4 is produced. What is the limiting reagent in this reaction, and how many moles of excess reagent are unreacted?
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