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Usage Examples
Filter by Meaning Geosynchronous satellite technology is used to track and predict the movement of severe storms and hurricanes.
Geosynchronous satellites are essential for monitoring climate patterns and weather changes on a global scale.
Geosynchronous satellite systems help track forest fires and other environmental emergencies.
Geosynchronous satellite data can help to monitor crop growth and health in agriculture.
Geosynchronous radio waves can travel much farther than those that don't follow the curvature of the Earth's surface.
Satellites in geosynchronous orbit are used for a variety of purposes, from telecommunications to military surveillance.
Geosynchronous satellites use these radio waves to maintain a constant link with the ground.
Geosynchronous communication satellites are often positioned over the equator for optimal coverage.
Communication systems rely heavily on geosynchronous satellites.
GPS uses geosynchronous satellites to pinpoint locations on the planet.
The geosynchronous orbit is the perfect altitude for observing the earth's weather patterns.
The TV station uses a geosynchronous satellite to broadcast its signal.
The military uses geosynchronous satellites for surveillance and reconnaissance.
The GPS system uses geosynchronous satellites to determine the user's location.
Geosynchronous satellites provide constant coverage of a particular area on Earth.
A geosynchronous orbit enables satellites to provide continuous and reliable communication services.
A geosynchronous satellite moves in sync with the Earth's rotation, appearing stationary to observers on the ground.
The geosynchronous orbit allows satellites to maintain their position over a specific spot on Earth.
A geosynchronous telescope is necessary for long-term space observations.
The geosynchronous telescope helps astronomers study the universe from a stationary position.
The geosynchronous telescope's location allows it to observe objects that are not visible from Earth.
The geosynchronous telescope is designed to capture light from distant galaxies and stars.
The geosynchronous telescope is used to track satellites in orbit.
The geosynchronous telescope tracks the movement of comets and asteroids.
The geosynchronous telescope's images are used by scientists to study the formation of the universe.
The geosynchronous telescope is used to observe the movements of planets in our solar system.
The geosynchronous orbit is also used for scientific experiments in space.
The geosynchronous clock is used to synchronize power grids across large regions.
The GPS system uses geosynchronous satellites to provide accurate location information.
Geosynchronous satellite imagery is used to study and track changes in land use, deforestation, and urbanization.
The geosynchronous GPS satellites help us navigate.
Geosynchronous satellite data can help monitor and forecast air quality changes in cities around the world.
Geosynchronous satellite technology is used to track wildlife migration patterns and study animal behavior.
Geosynchronous satellite systems are used to monitor global climate change and its effects on the environment.
Geosynchronous satellite systems are used to study and monitor the impacts of human activity on the environment, such as urbanization and pollution.
Geosynchronous satellites are used to study the Earth's magnetic field and its impact on the environment.
Geosynchronous satellite systems play an important role in monitoring and managing water resources, such as rivers, lakes, and aquifers.
Geosynchronous satellites help to monitor and predict the spread of infectious diseases and epidemics around the world.
Geosynchronous satellite data is used to track and predict the behavior of large-scale ocean currents and weather patterns.
Geosynchronous satellites can be used to track natural disasters like hurricanes and earthquakes.
Geosynchronous satellite technology is used to monitor and manage wildlife populations, such as tracking endangered species and preventing poaching.
Geosynchronous satellites help to monitor ocean currents and sea level changes.
Geosynchronous satellite imagery is used to detect and monitor changes in the Earth's surface, such as erosion, landslides, and volcanic activity.
Geosynchronous satellite systems are used to monitor and manage renewable energy sources, such as solar and wind power.
Geosynchronous satellites provide valuable data for mapping and monitoring natural resources, such as forests and water sources.
Geosynchronous satellites play a critical role in providing real-time data for air traffic control and navigation systems.
The geosynchronous position is ideal for monitoring and managing the world's oceans.
The geosynchronous orbit is used for military surveillance and reconnaissance.
Geosynchronous satellites can provide internet connectivity to remote locations.
The geosynchronous orbit is used for satellite-based timekeeping systems.
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