Lab 7: Using Emission Spectra to Identify Pure Element
Introduction:
Elements on the Periodic Table are arranged by increasing atomic number. The table can be
categorized in a number of ways. One way is to look at the similar chemical properties of the elements.
In doing so, the elements can be divided into three general groups: Metals, Metalloids, and Nonmetals.
The metals are usually reactive solids that can conduct electricity. During chemical reactions with other
elements the metals donate valence electrons to create a bond. Nonmetals observe the opposite
properties: less reactive, brittle, often gaseous in nature. The elements that fall into the category of
Metalloid exhibit a blend of both metallic and nonmetallic properties.
Each element emits energy in the form of light. This light is produced when the electrons of an
atom become excited, pushing them to higher energy sublevels in the electron cloud. When the excited
electrons return to the lower energy level the excess energy is released in the form of light. Each
element releases the energy at different frequencies, or intensities. These intensities are observed as
colored light to the human eye. Therefore each element will release photons of certain colors.
Figure 1. Emission Spectra of various elements
Using this knowledge emission spectra can be developed for each element to indicate what
wavelengths of light are released by each element. Every element’s emission spectrum is different, so it
can be used to identify various elements. The bands represent the wavelengths of light emitted by the
element when excited electrons drop to lower energy levels.
Materials:
Bunsen Burner
pipette
Spatula
Discharge Tube
Watch glass
Discharge Tube power source
Inoculation Loop
Spectroscope
Alcohol (preferably methanol)
Colored pencils/markers/crayons
Various salt compounds
Methods:
A. Emission Spectra
1. Visit the following website: http://www.800mainstreet.com/spect/emission-flame-exp.html
Read through the text, reviewing information about spectroscopy and emission spectra. At the bottom
of the website there is a section labeled “Part 1 Flame tests and identification of an unknown metal.”
And “Part 2 Observing line spectra with the spectroscope”. For each of these parts there are clickable
links that will show you either flame test results or emission spectra for specific elements. Examine
these, study them, and compare them. THIS MUST BE DONE BEFORE LAB!
400nm
500nm
600nm
700nm
800nm
Figure 2. Diagram of emission spectra
B. Flame Test
1. Light the Bunsen burner at the station. Make sure the flame is at a safe distance from all and that the
bench is clear of any other materials.
2. Using the plastic pipette add 3-4 drops of alcohol to the watch glass.
3. With the spatula, add a small scoop of the salt solution to the alcohol on the watch glass. DO NOT LET
THE SPATULA TOUCH THE ALCOHOL, this will cause contamination.
4. Using the Inoculation Loop mix the alcohol and salt.
5. Dip the Inoculation Loop in the solution and suspend it over the inner cone of the Bunsen Burner’s
flame.
6. Record any and all color changes in the flame observed. Be specific: “emerald green”, not just “green”
or “red with spots of orange”, not just “reddish”.
7. Repeat procedure 3 times for each solution to make certain of your data. Do this at all stations.
Results:
A. Flame Test: Fill in the following information. Using this information you will be able to identify
the unknown element.
Element
Description of flame
B. Emission Spectra: Draw the emission spectrum from each of the elements presented. Then,
identify the unknown element!
Element 1:
400nm
500nm
600nm
700nm
800nm
Element 2:
400nm
500nm
600nm
700nm
800nm
500nm
600nm
700nm
800nm
500nm
600nm
700nm
800nm
500nm
600nm
700nm
800nm
Element 3:
400nm
Element 4:
400nm
Element 5:
400nm
C: Unknown:
Unknown
1
2
Element
Reasoning
Unknown:
400nm
500nm
600nm
700nm
800nm
Reason for choosing:
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