Determining the Composition of Planetary Surfaces
Using Reflectance Spectrometry
(Middle and High School)
Robert S. Smith:  July 6,th, 2006
Sunshine State 
Standards:		 Middle School- SC.A.1.3, SC.E.1.3, SC.H.1.3, SC.H.2.3,MA.A.1.3,
High School-SC.A.1.4, SC.E.1.4, SC.H.1.4, SC.H.2.4, SC.H.3.4, 
Objectives:
  • Students will learn the operation of the ALTA 2 spectroscope 
  • Students will learn that the composition of compounds (rocks and minerals) can be identified and classified using reflectance spectrometry 
  • Students will compare reflectance spectrometry profiles with profiles of simulated Moon and Mars regolith 
Materials:
  • 1 ALTA 2 spectrometer per student 
  • 1 calculator (per 2 students) 
  • 1 simple magnifier per student 
  • sheets of bright white paper 
  • 5 worksheets for calculating reflectance for each of 5 samples 
  • 1 graph sheet for indicating reflectance profiles of 5 samples 
  • 1 activity kit (per two students) consisting of one zip lock bag with a sample of simulated Moon regolith (Maria), simulated Mars regolith (bright areas of Mars),  Hawaiian ‘black sand’ (basalt), Hawaiian ‘green sand’ (olivine with some basalt), and Ilmenite sand from northeast Florida. 
Commit to an Outcome
  • Can we determine using reflectance spectrometry which of the samples of sand most likely represents rocks found at the Maria of the Moon and the bright areas of Mars? 
Expose Beliefs
  • Are you aware of the use of reflectance spectrometry in past or current Moon and Mars missions? 
  • Do you believe that recent improvements in reflectance spectrometry techniques can accurately identify the composition of planetary surfaces from orbit? 
Confront Beliefs
  • Give the students the spectrometers (with directions for proper use), sample kit bags, calculators and magnifiers, and forms to record spectrometer data. 
  • Students will use the spectrometers to identify the reflectance spectrometer data for each sample and plot the results on the graph. 
  • Students will conclude which samples (basalt, olivine, and IImenite) may be most likely found at Lunar Maria and on Mars. 
Accommodate the Concept
  • Show the students the results from previous investigations so that they might compare their results. 
  • Show the students results from previous investigations not available in their kits. 
Extend the Concept
  • Reflectance spectrometry similar to this investigation will be used on the Moon and Mars Reconnaissance missions to determine the composition of the surface at various prospective landing sites. 
  • Discuss the Compact Reconnaissance Imaging Spectrometer for Mars (CRISM) instrument onboard the Mars Reconnaissance Orbiter (MRO) and distribute a handout on CRISM. 
  • Why do you think that NASA wants to determine the composition of the surface prior to landing at the site? 
Go Beyond
  • What other applications of this technology can you think of?