Mysterious dark matter could slosh over our planet like a wave. If it does, it may produce telltale radio waves in Earth's ...

A new research recently published may have answered the question of dark matter that has baffled scientists for decades.The ...

It provides a place for us to stand and it provides the gravitational field that keeps us as well as everything else bound to the planet, including the oceans (liquid), the atmosphere (gas), and the ...

Radio telescopes have an advantage over optical telescopes, in that radio telescopes can be used even in cloudy conditions ...

IN the course of recent experiments 1 on the structure of the ionosphere, we have found that ... complete theory of the structure of the upper atmosphere or of the transmission of radio waves ...

Auroras occur when particles from the Sun collide with particles in Earth’s ionosphere, the boundary between our planet’s lower atmosphere and space. The solar storm was caused by activity on ...

and 45 minutes after the eclipse to collect data on the disturbances caused to particles in an upper level of the atmosphere called the ionosphere by a total eclipse. "It's an electrified region ...

When that radiation hits the magnetic sphere surrounding the planet, it causes fluctuations in the ionosphere, a layer of the upper atmosphere. Those changes can directly affect satellites and ...

"We measured the thermal emissions from this rocky planet, and the measurement indicates that the planet has a substantial atmosphere. It is very exciting." Using the James Webb Space Telescope ...

Solar radiation impacts Earth’s ionosphere, a layer in the upper atmosphere, causing fluctuations that can interfere with radio transmissions from satellites passing through this layer.

Solar flares can affect communications and GPS almost immediately because they disrupt Earth’s ionosphere, or part of the upper atmosphere. Energetic particles released by the sun can also ...