The James Webb Space Telescope identified the lights in the distant planet’s atmosphere, which could not be seen by earlier ...

NASA’s James Webb Space Telescope used its Near-Infrared Spectrograph to capture Neptune’s auroras in stunning detail.

Unlike the geographic poles, which are fixed ... which in turn produces the planet's magnetic field. It's important to understand that Earth's magnetic field is not a perfect dipole; it has ...

Earth’s magnetic poles are constantly on the move ... When the Earth’s magnetic field is strong, as it is today, the amount of carbon generated by this interaction is relatively low, but ...

Auroras are natural light displays that occur when energetic particles from the Sun are trapped by a planet’s magnetic field.

A cosmic enigma, ASKAP J1839-0756, a slow-spinning neutron star discovered using the ASKAP radio telescope, is challenging ...

Sign up for CNN’s Wonder Theory science newsletter. Explore the universe with news on fascinating discoveries, scientific advancements and more. If you are using ...

They are affected by magnets and are attracted to either pole of a magnet. it produces its own magnetic field the magnetic field cannot be turned on and off - it is there all the time Bar magnets ...

Earth’s magnetic ... magnetic field reversal, lasting only 440 years with a field strength just 25% of today’s. During flips, Earth can develop multiple north and south poles, even reaching ...

While shifting is not a rare occurrence, the pole is moving both faster and differently than it was before, raising questions about the planet's magnetic field. If the Earth's field is disrupted ...