Weather stations gather data from the local area - satellite imagery shows the weather over a much wider area.
Indian Satellite that helps in forecasting the weather over India?
Meteorologists are using Satellite images to locate the center of eye the point around it a low pressure is formed.They will be watching the movement of this eye point. They can only tell you the probable time and location and its intensity where it may affect.
Meteorologists can tell whether the cloud is cold or not, by the shade of it.
Satellites above the atmosphere can get a clear, big picture of Earth's cloud formations. By analysing these cloud patterns, meteorologists can forecast how these clouds will change and move, and predict the weather, be it rain or shine, for many areas. For example, hurricanes can be easily spotted from satellites but not easily spotted from ground due to its size, and thus satellites come in very helpful. Also, infra-red satellite forecasting can also determine the temperatures in different areas on Earth's surface, which aids meteorologists in finding out cloud heights, cloud types, water cycles and sea surface termperatures (an important factor in the formation of hurricanes).
Hurricanes are observed and tracked by satellite, by specialized planes called hurricane hunters, and b surface observations by buoys at sea and radar on land.
Indian Satellite that helps in forecasting the weather over India?
Meteorologists can tell whether the cloud is cold or not, by the shade of it.
Meteorologists can tell whether the cloud is cold or not, by the shade of it.
Meteorologists are using Satellite images to locate the center of eye the point around it a low pressure is formed.They will be watching the movement of this eye point. They can only tell you the probable time and location and its intensity where it may affect.
Satellites above the atmosphere can get a clear, big picture of Earth's cloud formations. By analysing these cloud patterns, meteorologists can forecast how these clouds will change and move, and predict the weather, be it rain or shine, for many areas. For example, hurricanes can be easily spotted from satellites but not easily spotted from ground due to its size, and thus satellites come in very helpful. Also, infra-red satellite forecasting can also determine the temperatures in different areas on Earth's surface, which aids meteorologists in finding out cloud heights, cloud types, water cycles and sea surface termperatures (an important factor in the formation of hurricanes).
If you mean what it is used for, its most common uses are for weather forecasting, and communications, like satellite TV and radio.
There are many types of forecasting depending on the discipline. Weather forecasting uses satellite images and pressure measures to predict the weather. Economic forecasting can be used for budgeting purposes, to predict sales or profit and loss margins, deficits and other indices important to the economy. Regardless of the discipline information on forecasting techniques can be found in educational institutions, libraries and in books that deal with he specific subject of the forecast.
Henry E. Fuelberg has written: 'The application of VAS satellite imagery to thunderstorm forecasting at Cape Canaveral' -- subject(s): Thunderstorm forecasting, Satellite meteorology 'Analysis and use of VAS satellite data' -- subject(s): Satellite sounding 'An evaluation of satellite-derived humidity and its relationship to convective development' -- subject(s): Convection (Astrophysics), Humidity
Satellite observations can track the path of storms and weather fronts, as well as monitoring temperatures and other related data.
Three tools that can supply information for forecasting floods are statistical studies, flood hazard mapping. and computer models. Another method is satellite-based flood forecasting.
The moon for the tides. The man-made ones for communications, weather forecasting, GPS, and spying on each other.
Hurricanes are observed and tracked by satellite, by specialized planes called hurricane hunters, and b surface observations by buoys at sea and radar on land.