Visual Imagery

Visual Imagery The electromagnetic energy that your eyes can see, visible light, ranges from a wavelength of .7 µm for red light, through the visible spectrum (red, orange, yellow, green, blue, indigo and violet) to .4 µm for violet light. Figure 1-10, view B, shows the distribution of the various wavelengths of solar energy incident on the earth’s atmosphere. About 44 percent of the sun’s energy falls on the earth in the form of light. Although some light is absorbed, much of the light incident on the earth’s atmosphere and surface is reflected back into space. The reflected light from the earth is measured by a sensor aboard the satellite that is sensitive only to electromagnetic energy in the visual range. The sensor measures the energy seen in each pixel and assigns it a reading from 0 for no energy sensed to 256 for very high energy sensed. Measurements are transmitted to the earth, and the consecutive pixels and scan lines are processed to compose an image. The more direct sunlight reaching objects, the brighter they will appear. The amount of reflectivity of an object is termed albedo, and is dependent on the object’s surface texture and color. In visual-range images, areas of low reflected light (low albedo), such as water and forest regions, appear black. Areas of high reflected light (high albedo), such as snow, appear white (fig. 1-11). Cloud tops reflect a lot of light, so they are usually very light shades. Space surrounding earth reflects no light, so it appears black. Visible imagery is very useful in both atmospheric and oceanographic analysis because reflectivity varies considerably among atmospheric, land, and oceanic features. An obvious disadvantage of visible imagery is that it is only available during daylight hours. Infrared Imagery Look again at figure 1-10, view B. You can see that most of the sun’s energy that falls on the earth is in the infrared band. Most of the shorter wavelengths of infrared energy are reflected from the earth much the Figure 1-11.—GOES visual (VIS) image. Space and low reflective areas appear black, while high reflective areas, such as cloud tops, appear white. 1-11