The Best Table in the World
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Objective
The goals of this experiment are:
- to observe the reactions of several metals with cold water, hot water, acids and then other metal ions.
- to prepare an activity series of the metals based on the observations from the above reactions.
Grading
You will be assessed on:
- observations of the reactions of several metals with cold water, hot water, acids and then other metal ions.
- preparation of an activity series of the metals based on the observations from the above reactions.
- answers to the post-lab questions.
Background Information
First, you are going to travel back to 1869 and marvel at how the first periodic law and table were born when only 63 elements had been discovered at the time. A 35 year old professor of general chemistry, Dmitri Ivanovich Mendeleev at the University of St. Petersburg (now Lennigrad) in Russia was shuffling his cards with the properties of each element on each card trying to organize his thoughts for his soon-to-be famous textbook on chemistry. When he realized that if the elements were arranged in the order of their atomic weights, there was a trend in properties that repeated itself several times! His paper was delivered by his graduate student, Nikolai Aleksandrivich Menchutkin before the Russian Chemical Society while Medeleev was busy visiting cheesemaking cooperatives at the time!
In order to see and find order among the elements, we must have some general acquaintance with them. Elements are made of matter, and matter is defined as anything that has mass and occupies space. This includes everything that you can see and a lot that you cannot. It follows that in order to distinguish between different types of matter (in other words different elements) we have to assess their properties.
There are two types of properties: intensive and extensive. In the former case, intensive properties do not depend on the how much of an element is present but do include state (whether a substance is a solid, liquid or gas), color and chemical reactivity. Extensive properties depend on the quantity of matter present - mass and volume are extensive properties.
Properties can be further categorized as either chemical or physical. A chemical change describes how the substance may change composition, such as spontaneously by combustion or in combination with other substances. On the other hand, physical changes are those properties that can be measured without changing the composition of the matter. Condensation of steam to water is a physical change.
Introduction
What is there to know about the periodic table? Why is it important? Why does it appear in nearly every science lecture room and labs? Is it just a portrait of an aspect of chemistry or does it serve a useful purpose? Why is the name periodic appropriate? Why is the table arranged in such a way? What are the important features of the table? Does it give order to the approximately 120 known elements?
Relative Reactivity of Metals and the Activity Series
A superficial glance at the Periodic Table will reveal that all known elements are listed by their chemical symbols. An in depth glance at the Periodic Table yields information on the mass of an atom of the element in atomic mass units (amu) for the molar mass of a mole (
Mendeleev arranged the elements in the Periodic Table in order of increasing atomic number in horizontal rows of such length that elements with similar properties recur periodically; that is to say, they fall directly beneath each other in the Table. The elements in a given vertical column are referred to as a family or group. The physical and chemical properties of the elements in a given family change gradually as one goes from one element in the column to the next. By observing the trends in properties, the elements can be arranged in the order in which they appear in the Periodic Table.
Procedure
I. Activity Series
Part 1. Reactions of Metals with Water
CAUTION! Sodium reacts very rapidly with water to evolve hydrogen and heat. This is potentially dangerous because of the possibility of the violent explosive reaction of
CAUTION! Sodium causes severe chemical burns when it comes into contact with the skin. Note: Metallic sodium must be stored below the surface of an inert liquid such as kerosene to prevent oxidation by air.
- I will demonstrate the reaction of sodium and then potassium with water. Observe the rate of evolution of
- Place 5 mL
| A. | Mg |
| B. | Cu |
| C. | Zn |
| D. | Ca |
- Use sandpaper or steel wool to remove the oxide from the surfaces of Mg, Cu, and Zn.
- Place several small pieces of Mg, Cu, and Zn in the correctly labeled test tube prepared above. Place two or three (not more!) pieces of Ca turnings in the test tube labeled "Ca".
- Watch for evidence of reaction by noting evolution of gas bubbles and any change in the color or size of the metal. Record your observations and write net ionic equations for each reaction.
Note: Trapped air bubbles on the metal surfaces are not indicative of a reaction.
CAUTION:
CAUTION: Residual calcium should be discarded in a special container designated by your instructor.
Note: Net ionic equations must balance in mass (atoms) and in total charge on each side of the equation.
Part 2. Reactions of Metals with HCl
CAUTION: The reaction of Ca with HCl is not studied. Residual calcium should be discarded in a special container designated by your instructor.
- Decant the water from each test tube used in the procedure above and leave the pieces of metal that remain unreacted in each test tube.
- Place the test tubes in a test tube rack/holder.
- Add 2 mL of 3 M HCl solution to each test tube.
CAUTION: Some of the test tubes may become very hot. Leave them in the rack/holder while you are making observations.
- Observe relative rate of
- Based on the observations in the previous steps, list the elements that react in 3M HCl in order of increasing strength as reducing agents and write net ionic equations for all reactions.
Part 3. Reactions of Metals with Other Metal Ions
- Place a clean 1 inch-square of metal foil (sheet) of each of these metals Cu, Zn and Pb on a flat surface.
- Clean the metal surfaces by sanding them with fine sandpaper or steel wool.
- Place one or two drops in spots of each of these solutions in a clockwise order on the metal surfaces:
| A. | 0.5 M
|
| B. | 0.5 M
|
| C. | 0.5 M
|
| D. | 0.5 M
|
- NOTE: Do not test a cation of a metal on a square of the same metal such as
- Watch for color changes in each spot as evidence of reaction. If you are not sure whether the reaction has occurred, rinse the plate with water. A distinct spot of a different color on the surface is good evidence for the reaction.
- Write net ionic equations for each reaction . Arrange Ag, Cu, Pb and Zn in order of their increasing strength as reducing agents. If a metal A reacts with a cation of another metal B, metal A is a stronger reducing agent, more reactive than metal B.
- Rinse and dry each square of metal and return it to the correct beaker on the reagent shelf for other students to use.
Part 4. Flame Tests
One station set up that all sections will rotate through
Clean a spatula wire by dipping it into dilute hydrochloric acid (3M) and then holding it in a hot Bunsen flame. Repeat this until the spatula doesn't produce any color in the flame.
When the spatula is clean, moisten it again with some of the acid and then dip it into a small amount of the solid you are testing so that some sticks to the spatula. Place the spatula back in the flame again.
If the flame color is weak, it is often worthwhile to dip the spatula back in the acid again and put it back into the flame as if you were cleaning it. You often get a very short but intense flash of color by doing that.
Chemicals/Materials:
- Chloride salts of Li, Na, K, Rb, Cs, Ca, Ba, Cu, Pb, Fe (II) and Fe(III) Sr (nitrate salt).
- Glass rods with loops of Pt wire.
- Bunsen burner/clicker.
- Concentrated nitric acid or hydrochloric acid.
Record your observations on your report form.
It should be noted that sodium is present as an impurity in many if not most metal salts. Because sodium imparts an especially intense color to a flame, flashes of the sodium may be observed in nearly all solutions tested.
Pre-Lab 5: The Best Table in the World!
Hopefully here for the Pre-Lab
Name(Print then sign): __________________________________________________
Lab Day: ___________________Section: ________TA________________________
This assignment must be completed individually and turned in to your TA at the beginning of lab. You will not be allowed to begin the lab until you have completed this assignment.
- The mass of an atom of the element in atomic mass units (amu) for the molar mass of a mole (
- The second symbol listed for each element is the _______ __________, symbol ________? Fill in the blanks.
- The number in question 2 gives the number of
- ____________ or
- the number of ________________ for a neutral atom. Fill in the blanks
- The elements in a given vertical column are referred to as a _________ or __________. Fill in the blanks.
- The horizontal rows are called __________? Fill in the blank
- The block of elements between groups II and III are called ___________ _________? Fill in the blanks.
- Elements 58 to 71 are known as ____________ or __________________? Fill in the blanks.
- Elements 90 to 103 are known as _________ ____________? Fill in the blanks.
- Do elements with larger atomic numbers than 92 occur naturally? True or false? Circle the correct one.
Report 5: The Best Table in the World!
Hopefully here for the Report Form
Note: In preparing this report you are free to use references and consult with others. However, you may not copy from other students’ work (including your laboratory partner) or misrepresent your own data (see honor code).
Name(Print then sign): __________________________________________________
Lab Day: ___________________Section: ________TA________________________
I. Activity Series
Part 1. Reactions of Metals with Water
| Metal | Observations | Net Ionic Equations (If NoReaction Occurs, write N.R) |
| Na | ||
| K | ||
| Mg | ||
| Cu | ||
| Zn | ||
| Ca |
Part 2. Reactions with HCl
| Metal | Observations | Net Ionic Equations (If No Reaction Occurs, Write N.R.) |
| Mg | ||
| Cu | ||
| Zn |
2. Based on your experimental results place Mg, Cu, Zn and Ca in order of increasing strength as reducing agents.
Part 3. Reactions with Other Metal Ions
1. Write in the appropriate box either “REACTION” or “NO REACTION”.
| Zn | Cu | Pb | |
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|
Do not test | ||
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|
Do not test | ||
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|
Do not test |
2. Write balanced equations to represent the results tabulated above.
3. Based on your experimental results, arrange Ag, Cu, Zn and Pb in order of increasing strength as reducing agents.
4. Arrange
5. Combine the results from Part 2 and Part 3. Arrange Mg, Cu, Zn, Ca, Ag and Pb in order or increasing strength as reducing agents.
6. Place Ni in this row, if it is found that Ni will deposit on Zn foil, but not on Pb foil when a drop of
Part 4. Flame Tests
| Element | Color in flame |
| Li | |
| Na | |
| K | |
| Rb | |
| Cs | |
| Ca | |
| Sr | |
| Ba | |
| Cu | |
| Pb |
What are the limitations of this test?
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Last edited by Mary McHale on Oct 5, 2007 10:03 pm GMT-5.