The multicolored phenomenon known as the northern lights are an easily explained scientific reaction that typically takes ...

Astronomers have captured the clearest picture yet of how massive stars are born, revealing a dramatic interplay between ...

The magnetized rocks of Earth's crust and mantle, also known as the upper lithosphere, accounts for generating 6 percent of the planets magnetic field. Data from the European Space Agency's Swarm ...

When two CMEs's arrive late Monday, Oct. 6, into Tuesday, Oct. 7 the impact could stir up geomagnetic storms strong enough to ...

This video explores the nature of magnets and how they create invisible magnetic forces. It explains the origin of magnetism, ...

As per the clip, the magnetic tune is otherworldly and creepy, like the title soundtrack to a deep space horror thriller or ...

The strongest magnetic fields on Earth that we can currently produce are courtesy of MagLab in Tallahassee, Florida, at their pulsed field facility.

Just in time for the autumnal equinox, NOAA predicts Kp values in the middle range, which is enough to give much of the U.S.

As the iron and nickel inside our planet shift, so does Earth's magnetic field, meaning the North (and South) Poles are also ...

A series of observations between 2017 and 2021 suggest the supermassive structure’s magnetized plasma is more dynamic than ...

Space weather forecasting is decades behind Earth’s meteorology. Learn what makes auroras so unpredictable—and the real-time ...

Spirals of solar wind can spin off larger solar eruptions and disrupt Earth's magnetic field, yet they are too difficult to ...