NASA releases new images of Uranus, offering glimpse of one rarely-seen feature

Stunning new images released by NASA on Monday detailed new images of Uranus, revealing a stunning look at its glowing rings and one rarely-seen feature.

The photos, taken by NASA’s high-powered James Webb Space Telescope, captured the icy planet along with its multiple inner and outer rings, nine of its 27 known moons and a seasonal polar cap.

The new pictures offer a rare glimpse of the “elusive” Zeta ring, an extremely faint and diffuse ring closest to the planet — shown in a reddish brown color.

Multiple other rings were captured in a glowing blue color.

The high-powered Webb telescope also grabbed snapshots of atmospheric happenings on the freezing planet, including Uranus’ seasonal north polar cloud cap and several storms near it.

The images of Uranus were captured by the high-powered James Webb Space Telescope. NASA
The images offer a rarely-seen glimpse of Uranus’ faint, inner Zeta ring and captured several of the plant’s moons. NASA

The polar cap becomes more pronounced when Uranus’ pole shifts towards the sun as it approaches solstice and receives more sunlight. The planet’s next solstice is in 2028.

Uranus has the most extreme seasons in the solar system because it spins on its side at a tilt of about 98 degrees, according to NASA. While the sun shines over one pole, the other pole is plunged into a dark, 21-year-long winter.

“With Webb’s unparalleled infrared resolution and sensitivity, astronomers now see Uranus and its unique features with groundbreaking new clarity,” NASA said. “These details, especially of the close-in Zeta ring, will be invaluable to planning any future missions to Uranus.”

Uranus has the most extreme seasons in the solar system. NASA

NASA also said the planet and the new images of it will help its scientists study nearly 2,000 similarly-sized exoplanets discovered over the last few decades.

“This ‘exoplanet in our backyard’ can help astronomers understand how planets of this size work, what their meteorology is like, and how they formed,” the government agency said. “This can in turn help us understand our own solar system as a whole by placing it in a larger context.”

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