Activity 2: Atmospheric Effects in Remote Sensing

Materials:

none

About this Activity:

This activity involves classroom discussion and students' interpretation of a graph.

Procedure:

  1. The electromagnetic energy travels through the atmosphere from the sun to target remote sensing sensors. These sensors pick up visible and infrared radiation. Each wavelength belongs to a characteristic band, which is just a range of wavelengths. Each band can be described by a color, like blue, if the observed wavelength is within a certain range of visible light. If not visible light, then the band is described by other wavelengths in the electromagnetic spectrum, like infrared.

    Bands Wavelengths
    1 blue
    2 green
    3 red
    4 near infrared
    5 near infrared
    6 thermal infrared
    7 near infrared

  2. The atmosphere absorbs, transmits, and scatters energy.

  3. Ask: Which type of energy do you think passes through the atmosphere and reaches the sensor directly (unaltered)?

    Why? (transmitted energy)

  4. Ask: When energy is absorbed, explain the type of radiation that is re-emitted. Why? (Absorbed energy warms the atmosphere and has a longer wavelength.)

  5. Ask: What effect do you think atmospheric scattering does to the image being scanned? (It results in haze and diminished image clarity.) Scattering- the redirection of light by particles or molecules in the atmosphere.

  6. Draw the following graph on the board and have students write down their interpretations from the graph.

    [Graph of Bands vs. Scattering %]

    Key:

    B = blue

    G = green

    R = red

    IR = infrared

  7. Discuss students interpretations of the graph.

  8. Have students explain the effects of scattering, absorbing, and transmitting energy through the Earth's atmosphere.

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[LMGFP home page] Contact Karen Krupinsky (kgurley@gsfc.nasa.gov) or
Tammy Seergae (tseergae@umd.edu) for further information.