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  • 109.

    Calculate the amount in moles of a reactant or product from the amount in moles of a different reactant or product.

  • 110.

    Calculate the mass of a reactant or product from the amount in moles of a different reactant or product.

  • 111.

    Calculate the amount in moles of a reactant or product from the mass of a different reactant or product.

  • 112.

    Calculate the mass of a reactant or product from the mass of a different reactant or product.

  • 113.

    Describe a method for determining which of two reactants is a limiting reactant.

  • 114.

    Calculate the amount in moles or mass in grams of a product, given the amounts in moles or masses in grams of two reactants, one of which is in excess.

  • 115.

    Distinguish between theoretical yield, actual yield, and percent yield.

  • 116.

    Calculate percent yield, given the actual yield and quantity of a reactant.

  • 117.

    Write equations for the dissolution of soluble ionic compounds in water.

  • 118.

    Predict whether a precipitate will form when solutions of soluble ionic compounds are combined, and write net ionic equations for precipitation reactions.

  • 119.

    Define standard molar volume of a gas, and use it to calculate gas masses and volumes.

  • 120.

    Use standard molar volume to calculate the molar mass of a gas.

  • 121.

    Use a chemical equation to specify volume ratios for gaseous reactants or products, or both.

  • 122.

    Use volume ratios and the gas laws to calculate volumes, masses, or molar amounts of gaseous reactants or products.

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