NOAA GOES Image Viewer website
18 Aug 2022 - 00:49 EDT
18 Aug 2022 - 04:49 UTC

GOES-East Mesoscale view - Band 4 at 42°N - 97°W - Cuming County, NE

30 frame animation displayed. This mesoscale location is no longer being actively produced.

To enlarge, pause animation & click the image. Hover over popups to zoom. Use slider to navigate.

  

  

  
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2100 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2100 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2101 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2101 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2102 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2102 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2103 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2103 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2104 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2104 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2105 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2105 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2106 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2106 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2107 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2107 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2108 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2108 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2109 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2109 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2110 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2110 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2111 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2111 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2112 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2112 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2113 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2113 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2114 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2114 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2115 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2115 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2116 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2116 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2117 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2117 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2118 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2118 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2119 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2119 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2120 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2120 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2121 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2121 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2122 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2122 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2123 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2123 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2124 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2124 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2125 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2125 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2126 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2126 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2127 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2127 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2128 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2128 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2129 UTC
Band 4 - 1.37 µm - Cirrus - Near IR - 05 Jul 2022 - 2129 UTC
 

About Band 4

1.37 µm - Cirrus Band - 2 km resolution - Band 4 will detect very thin cirrus clouds during the day. This band is centered in a strong water vapor absorption spectral region. It does not routinely sense the lower troposphere, where there is substantial water vapor, and thus provides excellent daytime sensitivity to high, very thin cirrus under most circumstances.

Band` 4 is a visible channel and is therefore black during nighttime hours.

• For more details, see the Band 4 - ABI Quick Information Guide, (PDF, 532 KB)