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15 January, 10:07

In 1901, Thomas Edison invented the nickel-iron battery. The following reaction takes place in the battery. Fe (s) + 2 NiO (OH) (s) + 2 H2O (l) Fe (OH) 2 (s) + 2 Ni (OH) 2 (aq) How many mole of Fe (OH) 2, is produced when 5.35 mol Fe and 7.65 mol NiO (OH) react?

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Answers (2)
  1. 15 January, 10:18
    -1
    3.825 mol of Fe (OH) 2 are produced.

    Explanation:

    Reaction:

    Fe (s) + 2 NiO (OH) (s) + 2 H2O (l) → Fe (OH) 2 (s) + 2 Ni (OH) 2 (aq)

    5.35 mol Fe and 7.65 mol NiO (OH) react. For every 1 mol of Fe that reacts 2 mol of NiO (OH) are needed, then for 5.35 mol Fe, 5.35*2 = 10.7 mol of NiO (OH) are needed. Therefore, NiO (OH) is the limiting reactant.

    1 mol of Fe (OH) 2 is produced when 2 mol of NiO (OH) reacts, then if 7.65 mol NiO (OH) reacts, 7.65/2 = 3.825 mol of Fe (OH) 2 are produced.
  2. 15 January, 10:26
    0
    Ans: Moles of Fe (OH) 2 produced is 5.35 moles.

    Given reaction:

    Fe (s) + 2NiO (OH) (s) + 2H2O (l) → Fe (OH) 2 (s) + 2Ni (OH) 2 (aq)

    Based on the reaction stoichiometry:

    1 mole of Fe reacts with 2 moles of NiO (OH) to produce 1 mole of Fe (OH) 2

    It is given that there are:

    5.35 moles of Fe

    7.65 moles of NiO (OH)

    Here the limiting reagent is Fe

    Therefore, number of moles of Fe (OH) 2 produced is 5.35 moles.
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