Yoda Wisdom #47: No! Try Not. Do Or Do Not. There Is No Try

Quantitative Chemical Analysis

Yoda wisdom #47: No! Try not. Do…or do not. There is no try.

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Lab Quantitative Analysis Nail.doc

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Objectives

Determine the number of moles of iron consumed and copper produced in the reaction of iron with aqueous copper (II) chloride.

Determine the most likely ion of iron formed in the lab

Background Information

In this experiment, you will carry out a chemical reaction and determine what ion of iron forms in a particular chemical reaction.

As an example, suppose we reacted lithium metal with aqueous magnesium chloride. Lithium can only form one ion, Li+. Therefore there is only one possible reaction that can take place:

2 Li(s) + MgCl2(aq) 2 LiCl(aq) + 2 Mg(s)

But, what if the solid metal added to the aqueous solution was a transition metal and could form more than one type of ion (hmm...where on the periodic table would we find these types of element)? If this is the case, there is more than one type of reaction that could happen. The question is, what reaction does happen (and therefore which ion forms)? That is what we are going to determine in this lab.

Specifically, you will allow iron metal to react with a solution of copper(II) chloride to produce copper metal and an iron compound. You will measure the mass of the iron used and the copper formed in the reaction. Using these mass measurements, you will determine the number of moles of iron and copper involved in the reaction.

The ratio of moles of iron consumed to moles of copper produced will be used to determine what ion of iron formed during the reaction.

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Lab Quantitative Analysis Nail.doc

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Equipment

safety goggles

1 50mL graduated cylinder

2 250mL beakers

1 plastic wash bottle

1 glass stirring rod

1 drying oven/class

1 crucible tongs

balances

1 glassmarking pencil/class

Materials

iron nails, Fe

copper (II) chloride, CuCl2

1 M hydrochloric acid, HCl

steel wool

paper towel

sodium bicarbonate, NaHCO3

deionized water

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Preparation

Read the entire lab procedure. Then, referring back to the procedure, create a data table(s) to record all of the necessary data (look for key word such as weigh, record, observe, etc.)

This will be checked off before you start the lab. In addition, it would be helpful to look at the questions you will be expected to answer before you begin the lab.

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Lab Quantitative Analysis Nail.doc

Printed on: 10/13/18 at 1:23 PM

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Lab Quantitative Analysis Nail.doc

Printed on: 10/13/18 at 1:23 PM

Procedure

As you perform the experiment, record your data in your data table(s).

Day 1

1)Label a clean, dry 250mL beaker by writing your names on a piece of labeling tape with a permanent marker.Weigh the beaker to the nearest 0.01 g. Record this mass.

2)Add 7.5 g of copper (II) chloride, CuCl2, powder to a 250-mL beaker.

3)Add 50 mL of deionized water (in the blue squirt bottles) to the copper II chloride crystals in the 250mL beaker. Stir the mixture until the crystals are completely dissolved. Record your observations.

4)Clean four dry iron nails with steel wool to remove any rust or protective coating. Place the nails on the balance pan and determine their combined mass to the nearest 0.01 g. Record this mass.

5)Slide the nails carefully into the solution of copper (II) chloride. Record any evidence of a chemical reaction. Place the beaker in a safe place (side of the room or in the hood) and let the reaction proceed overnight.

Day 2

6)Using a pair of clean crucible tongs (being very careful) remove any nails that may be left from the solution. Hold each nail over the beaker and use a jet of water from a blue wash bottle to rinse the product off the nail into the beaker. (See Figure 1)

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Lab Quantitative Analysis Nail.doc

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7)DO NOT THROW THE NAILS OUT!!! Allow the nails to air-dry in a safe place. (You will need to weigh them later.) Be sure to keep track of which nails are yours.

8)Carefully pour the liquid portion of the mixture into a separate container (another 250mL beaker will do), leaving the solid in the original beaker. (See Figure 2) This process is called decanting. Dispose the liquid solution by pouring it into the sink. Be sure not to throw any of the solid in the sink. You will need this to weigh later. Rinse the collection beaker with water.

9)Wash the solid product in the beaker with 25 mL of distilled water from the blue squirt bottles. Pour off the liquid into the separate container. If the solid product should accidentally fall into the separate container, pour the product back into the first beaker. Repeat the washing and decanting procedures another three times, being careful to avoid any loss of the solid. The liquid can be safely poured into the sink.

10)Now, wash the remaining solid product with 25 mL of 1 M HCl. CAUTION: HCl is an irritant at this concentration. Avoid skin contact. Wash the acid into a beaker and neutralize it with sodium bicarbonate (baking soda) before pouring it into the sink for disposal. Wash the solid again for the fifth time with 25 mL of distilled water from the blue squirt bottle. You can pour this liquid directly into the sink.

11)Place the beaker containing the solid product in the drying oven.

12)Weigh the dry nails together to the nearest 0.01 g. Record the mass in your data table. Allow the beaker with the solid in it to dry overnight.

Day 3

13)After the solid product is dry and the beaker has cooled, weigh the beaker and its contents to the nearest
0.01 g. Record this mass in your data table. When you are finished, place the nails in the beaker labeled “nails” in the back of the room and put the solid product in the garbage can.

Analysis

1)Determine the mass of iron lost by the nails.

2)Determine the number of moles of iron used. (See Introduction.)

3)Determine the mass of the product produced.

4)Assuming that the product is copper metal, determine the number of moles of copper produced. Remember, Iron can be a +2 or a +3 charge, it is up to you to tell me which one it is (See Introduction.)

5)Calculate the mole ratio of iron used to copper produced. Express this ratio as a simple whole number ratio. (Round if necessary, don’t forget your units!!) It should look like: Moles of iron used

______

Moles of copper produced

Results and Conclusions

Iron can form two types of ions: Fe+3 and Fe+2. The two possible equations for this reaction are as follows:

For the Fe+3____Fe + ____CuCl2 ____FeCl3 + ____Cu

For the Fe +2____Fe + ____CuCl2 ____FeCl2 + ____Cu

1) Balance the above equations.

2) What are the two mole ratios that are formed in the two equations? Remember, for your ratio, you want the

moles of iron used:moles of copper produced

3) What was the ratio of moles of iron used: moles of copper produced in your lab?

2) Referring to the ratios from the two equations above and your mole ratio from number 3, which ion of iron formed in this reaction?

3) Explain how you chose the ion of iron that formed. Be sure to refer to your equations and mole ratios.

4) What type of reaction occurred in this lab? Explain how you know this.

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Lab Quantitative Analysis Nail.doc

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