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Home / Science / Stunning close-ups of the planet are captured by NASA’S Juno probe

Stunning close-ups of the planet are captured by NASA’S Juno probe



Swirls of oil painting, rushing storms and the famous "Great Red Spot" of Jupiter: Beautiful close-ups of the planet are captured by NASA's Juno spacecraft

  • Beautiful images captured by the NASA space telescope JunoCam shows swirling clouds of gas covering Jupiter [19659003] The dramatic images of Jupiter's "chaotic and turbulent" clouds are enhanced by color by NASA technicians
  • Junocam is designed to photograph the polar regions of the planet to give clues to how it was formed [19659004] The solar – The spaceship was launched in 2011 and entered Jupiter's polar orbit in July 2016
5, 2019 |

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NASA has revealed stunning images of the clouds of swirling gas and rushing storms that covered Jupiter.

The Juno spacecraft probe captured images using its on-board camera, known as JunoCam.

It was specifically designed to photograph the polar regions of the planet in its search for clues about how the planet was formed.

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  Despite the wonderful gases of

Despite the wonderful gases of the "cloud" of the planet caught, the planet shrouded in the clouds of Jupiter may not even have a surface on which humans could stand

Juno was launched on August 5, 2011 before entering the planet's polar orbit in July 2016.

JunoCam captured these close-up photos of Jupiter's poles, as well as the shroud of swirling clouds that cover the gas giant in recent months.

Jupiter is two – one and a half times the size of all the other planets in the combined Solar System and the experts discuss whether his cloud cover hides a solid core or if the planet is entirely made up of gas.

The latest images of Jupiter's swirling cloud formation were developed by NASA's Jet Propulsion Laboratory.

While the images of the planet's northern hemisphere abound, the new images show the southern hemisphere of Jupiter, which has been depicted less often.

  NASA's Juno orbital probe has revealed detailed images of the swirling gas clouds that covered Jupiter. JunoCam has captured the close-up photos of the poles of Jupiter, as well as the shroud of swirling clouds that cover the gas giant.

NASA's Juno orbital probe revealed detailed images of the swirling gas clouds that covered Jupiter. JunoCam has captured close-up photos of Jupiter's poles, as well as the shroud of swirling clouds that cover the gas giant.

  While the images of the northern hemisphere of the planet abound, the new images show the southern hemisphere of Jupiter. The latest images of Jupiter's swirling cloud formation were developed by NASA's Jet Propulsion Laboratory

While the images of the planet's northern hemisphere abound, the new images show the southern hemisphere of Jupiter. The latest images of Jupiter's swirling cloud formation were developed by NASA's Jet Propulsion Laboratory

. The detail was closely captured by the camera on the spacecraft known as JunoCam, specifically designed to photograph the polar regions of the planet

The detail was closely captured by the camera on the spacecraft known as the JunoCam, specifically designed to photograph the polar regions of the planet

WHAT IS JUPITER'S GREAT RED SPOT?

The Great Red Spot of Jupiter is a gigantic oval of crimson clouds in the southern hemisphere of Jupiter that turns counterclockwise around the perimeter of the oval. [19659012] The biggest storm in the solar system appears as an intense red globe surrounded by layers of pale yellow, orange and white.

Trapped between two years t stream, the Great Red Spot is an anticyclone that revolves around a center of high atmospheric pressure that makes it rotate in the opposite direction to hurricanes on Earth.

  The Great Red Spot of Jupiter is a gigantic oval of crimson clouds in the southern hemisphere Jupiter that runs counterclockwise around the perimeter of the oval

The Great Red Spot of Jupiter is a gigantic crimson oval cloud in the southern hemisphere of Jupiter running counterclockwise around the perimeter of the oval

The winds inside the storm were measured at several hundred miles now, with more wind storms than any storm on Earth, NASA astronomers said.

Towards the end of the 1800s it was estimated at around 35,000 miles (about 56,000 km) in diameter, wide enough to allow four Earths to adapt to one another.

Measuring 10,000 miles (16,000 km) wide starting on 3 April 2017, the Great Red Spot is 1.3 times wider than the Earth and is gradually decreasing over time.

The solar-powered spacecraft that left Earth eight years ago made history by entering the orbit of Jupiter.

NASA's Juno probe launched its main engine at 4.18 am BST (11.18pm ET) in 2011, slowing down from a speed of 165,000 mph (265,000 km / h) enough to fall into a & Wide orbit around the planet.

With Juno on autopilot, the delicately choreographic move came without any help from the ground controllers, so the control of the spacecraft's mission exploded with cheering and applause when the orbit was confirmed at 4:53 am BST (11.53pm ET).

  NASA's Juno spacecraft launched its main rocket engine at 4.18 am BST (11.18pm ET) in 2011, slowing down by a speed of 165,000 mph (265,000 km / h) enough to fall into an orbit wide around the planet.

NASA's Probe Juno launched its main rocket engine at 4.18 am BST (11.18pm ET) in 2011, slowing down by a speed of 165,000 mph (265,000 km / h) enough to fall into a wide orbit around the planet.

Jupiter & # 39; s Great Red Spot has long intrigued astronomers, with its giant whirlwind storms and forced wind hurricanes.

It was first observed with certainty 150 years ago, it manifests itself through the telescope because of its reddish color against the white, yellowish, ocher clouds that contrast with the rest of the planet.

Despite numerous studies conducted on the storm, its nature represents a great challenge for planetary meteorologists.

Last year, researchers revealed what really happens in the storm – and found its center strangely calm.

While the winds reach 450 miles per hour (724 km / h) at the edge, in the middle, they are only 25 miles at the time (40 km / h),

WHAT CAUS THE BANDS JUPITER CHARACTERISTICS?

Experts have investigated recent evidence gathered by NASA's Juno space probe to reveal why gases form bands on Jupiter.

The ammonia clouds in the outer atmosphere of Jupiter are transported along jet streams to form Jupiter's colored bands.

Jupiter's jet flows reach 3,000 miles (3,000 km) under the clouds of Jupiter, which are shades of white, red, orange, brown and yellow.

the interior of Jupiter is magnetized, which the researchers believe explains why jet flows are as deep as they do but no longer go deep.

There are not even continents and mountains under the atmosphere of Jupiter to obstruct the path of the jet stream.

This makes jet streams on Jupiter simpler than those on Earth and cause less turbulence in its high atmosphere.

The study, conducted by an international team of researchers led by Agustín Sánchez-Lavega, found a "rich diversity" of clouds within the Great Red Spot.

"These phenomena are confined in a thin layer with a thickness of only 50 km (50 miles), which represents the roof of the point clouds, while inside, the point probably drops to a depth of a pair hundreds of kilometers, "the researchers said in November 2018.

It contains cumulus clouds of cluster storms produced by the condensation of ammonia vapor, narrow gravitational waves similar to those that are formed on the Earth when the wind blows on the tops of mountains.

Yet calm reigns in the center where the clouds move in the opposite direction at the maximum speed of only 15 miles / h (25 km / h), according to the team.

Despite numerous studies conducted on the storm, its nature represents a great challenge for planetary meteorologists.

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