November 25, 2024

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Just in time for Halloween!  NASA’s Juno probe detects a terrifying ‘face’ on Jupiter

Just in time for Halloween! NASA’s Juno probe detects a terrifying ‘face’ on Jupiter

  • The terrifying photo was taken during the 54th Juno probe’s flyby of Jupiter
  • NASA said it would release the painting on Picasso’s 142nd birthday

With Halloween just around the corner, NASA has joined in on the spooky shenanigans by releasing a new image of a strange-looking “face” on Jupiter.

The image was taken by NASA’s Juno probe during its 54th flyby of the gas giant last month.

It captures Jupiter’s choppy clouds forming a rather unusual pattern creating the twisted appearance of the eyes, nose and mouth.

Half of the image is in darkness on the planet’s night side, which NASA said makes it even more terrifying because it makes the face appear to be peeking out from behind a door.

“Just in time for Halloween, NASA’s Juno mission has spotted a strange face on Jupiter,” the space agency added.

Spooky: With Halloween quickly approaching, NASA has joined the spooky shenanigans by releasing a new image of a ghoul-looking “face” on Jupiter
It captures Jupiter’s choppy clouds forming a rather unusual pattern creating the twisted appearance of the eyes, nose and mouth.

Jupiter: The Basics

Jupiter is the fifth planet from the Sun and the largest in our solar system.

It is a huge ball of gas composed mostly of hydrogen and helium, with some heavy elements.

“Jupiter’s familiar streaks and eddies are actually cold, stormy clouds of ammonia and water, floating in an atmosphere of hydrogen and helium,” NASA said.

“Jupiter’s famous Great Red Spot is a giant storm larger than Earth, and has been raging for hundreds of years.”

The planet is twice the size of the other planets combined, and the Great Red Spot alone is large enough to fit the entire Earth inside it.

One spacecraft – NASA’s Juno spacecraft – is currently exploring this giant world.

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Facts and figures

Distance from the sun: 750 million km

Orbital: 12 years

Surface area: 61.42 billion square kilometers

radius: 69,911 km

Mass: 1.898 × ​​10^27 kg (317.8 m⊕)

Length of the day: 0m 9h 56m

Moons: 53 with official designations; Countless additional moons

This is not the first time Juno has produced such an image.

The views you get of Jupiter’s clouds orbiting high above the largest planet in our solar system often result in what’s called the phenomenon of pareidolia.

This is where the human mind wants to understand what the eyes see, creating an unreal meaning.

An example is the perception of faces in largely random patterns.

These desperate “facial features” were spotted by citizen scientist Vladimir Tarasov, who noticed unusual shapes in Jupiter’s storm clouds.

The dark rectangular eyes are surrounded by clouds that form what looks like an eyebrow and the nose is compressed, with nostrils and a sad smile.

NASA said it resembles a cubist portrait with “multiple facial perspectives.”

The space agency released the image on October 25, to coincide with what could have been Picasso’s 142nd birthday

Tarasov created the image using raw data from the spacecraft’s JunoCam instrument.

It captures the gas giant’s turbulent clouds and storms along its terminus — the line dividing the day and night sides of the planet.

At the time the initial image was taken, the Juno probe was about 4,800 miles (about 7,700 kilometers) above Jupiter’s cloud tops.

The goal of its mission is to study the composition of Jupiter, assessing its polar magnetosphere, gravitational field, and magnetic field.

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Furthermore, Juno has been observing the gas giant’s turbulent atmosphere, its weather, and the sides of the planet’s moons.

Orbiter: This isn’t the first time NASA’s Juno spacecraft (pictured in artist’s impression) has produced such an image. The views you get of Jupiter’s clouds orbiting high above the largest planet in our solar system often result in what’s called the phenomenon of pareidolia

Its mission was originally scheduled to end in July 2021, to be extended until September 2025, or until the end of the spacecraft’s life if that comes first.

Juno arrived at Jupiter on July 4, 2016, after a five-year journey within 1.8 billion miles (2.8 billion kilometers) of Earth.

After a successful braking maneuver, it entered a long polar orbit and flew to within 3,100 miles (5,000 km) of the planet’s swirling cloud tops.

No previous spacecraft has orbited this close to Jupiter, but two others have been sent plunging into its atmosphere, destroying them.

When the Juno mission ends, the probe will be directed into the gas giant’s atmosphere until it disintegrates.

But until then, we hope she can keep producing weird and wonderful photos like these.

How NASA’s Juno probe to Jupiter will reveal the secrets of the largest planet in the solar system

The Juno probe arrived at Jupiter in 2016 after a five-year journey and a distance of 1.8 billion miles from Earth.

The Juno probe arrived at Jupiter on July 4, 2016, after a five-year journey of 1.8 billion miles (2.8 billion kilometers) from Earth.

After a successful braking maneuver, it entered a long polar orbit and flew to within 3,100 miles (5,000 km) of the planet’s swirling cloud tops.

The probe was only flying within 2,600 miles (4,200 kilometers) of the planet’s clouds once every two weeks, too close to provide global coverage in a single image.

No previous spacecraft has orbited this close to Jupiter, although two others have been sent plunging through its atmosphere, destroying them.

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To complete its perilous mission, Juno weathered an extremely powerful radiation storm generated by Jupiter’s strong magnetic field.

The vortex of high-energy particles moving at nearly the speed of light is the harshest radiation environment in the solar system.

To overcome these conditions, the spacecraft was protected by special radiation-hardening wires and a sensor shield.

Its all-important “brain” – the spacecraft’s flight computer – was housed in an armored vault made of titanium and weighing about 400 pounds (172 kg).

The vehicle is expected to study the composition of the planet’s atmosphere until 2025.