NASA Atmospheric Wave-Studying Mission Releases Data from First 3,000 Orbits

After 3,000Third In orbit of NASA’s fears (the experience of Wammandi waves) at the International Space Station, researchers have publicly released the first part of the mission of scientific data, it is very important to investigate how submarine changes in the land environment and how to obstruct the ground and obstruct them.

“We have released the first 3,000 orbits of data collected by a wonderful device in space,” said Lajar Sherless, a professor of mission and physics professor at Utah State University. “This is a vision of waves of gravity that has never been caught.”

Is available OnlineThe release of the data, has more than five million individual images of the Aerlo and Wammondi gravity wave observations collected by four cameras of the device, as well as the intensity of the derived temperature and the intensity of the air glue and the waves of the waves.

“Is providing amazing images and statistics,” said Esius Shumi, a scientist at the NASA headquarters in Washington, to understand what we had witnessed less than a decade ago. ” “We are happy to share this influential figures set with the big scientific community and look forward to what will be discovered.”

Environmental gravity waves are naturally found in the Earth environment and are formed by the weather and tipography of the earth. Scientists have studied secret phenomena for years, but primarily from a few selected sites on the ground level.

“With surprising statistics, we can now start nearly global measurement and waves and start their energy and its pace to hundreds and even thousands of kilometers.” “This opens a new chapter in this field of research.”

Surprising data will also provide insights on how satellite communication and navigation, and navigation, and tracking will also provide insights.

“We have relied on satellite for applications using GPS navigation every day, including GPS navigation,” said Sherless. “Fear is an attempt to focus on science about the waves of environmental gravity, and try to use this information to better predict the weather that can disrupt satellite communication. We will work together with our peers to understand what these gravity waves have on the weather.

The Toba -shaped surprising device, known as Advanced Messefrical Temperature Mapper or AMTM, consists of four equal binoculars. It is riding on the outer part of the International Space Station, where its land is visible.

As the space station revolves around the earth, AMTM telescopes occupy 7,000 miles long swaths of the planet’s surface, and record images of environmental gravity waves when they go into space from the lower environment. AMTM measures and records the brightness of the light on specific wavelengths, which can be used to make air and wave temperature maps. These maps can show the energy of these waves and how they are going through the environment.

To analyze the data and make it publicly available, USU, USU researchers and students developed a new software to tackle the challenges that had never been faced before.

“The reflection from the clouds and the earth can dissolve some images, and we want to make sure that the data provide clear, precise images of the power force through waves,” said Sherless. “We also have to make sure that the images coming from four separate amazing telescopes on the mapper are properly linked. Moreover, we need to make sure that the space station’s solar panel reflects wandering light, moonlight and city lights, not observations.

Since scientists move forward with the mission, they will investigate how the activity of gravity changes with seasons around the world. Sherless is looking forward to seeing how the global science community will use amazing observations.

“The data collected through this mission provides unprecedented insights about the weather’s role on the space weather,” he said.

Evo is led by Logan in Utah, Utah State University in Utah, and is administered by the Explorer Program Office at NASA’s Goodard Space Flight Center in Maryland’s Green Belt. The Space Dynamics Laboratory of Utah State University created an amazing device and provided Mission Operations Center.

By Mary-Ain Muftio
Utah State University, Logan, UT

NASA Media Contact: Sarah Farazir

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