The James Webb Telescope captures the most accurate picture of the "Pillars of Creation" nebula The James Webb Telescope captures the most accurate picture of the "Pillars of Creation" nebula

The James Webb Telescope captures the most accurate picture of the "Pillars of Creation" nebula

The James Webb Telescope captures the most accurate picture of the "Pillars of Creation" nebula This region of the sky draws the attention of researchers who want to develop physical models that explain how stars are created in dense dust clouds in space.  Researchers from the James Webb Space Observatory announced the release of a new image of the "pillars of creation", which is the most accurate and detailed to date; It will enable researchers in this area to update their theoretical models that explain the origin and evolution of stars.  The pillars of creation are a wonderful celestial scene that represents part of the "Eagle" nebula, and this scene drew global attention when the Hubble telescope took a picture of it in 1995, and because of its distinctive shape - as if it were 3 celestial mountain peaks - it took an important place in astronomical documentaries over the past 3 decades.  The "Pillars of Creation" is a really vast region, extending to the equivalent of 7 to 10 solar systems of the ones in which we live, and located at a distance of 7,000 light years from Earth. A light year is a unit of distance measurement representing about 9.5 trillion kilometers.  Cloud penetration According to an official statement from the US Space and Aviation Agency (NASA), the researchers used the "Nercam" camera on board the "James Webb", which captures images in the near-infrared range; This enabled the researchers to spot emerging stars in bright red.  When you compare this image with its predecessor, which was taken in 1995, or even to the most recent Hubble Telescope image that was taken in 2014, you can notice that the three pillars of creation in the previous images were blurry, because they are full of dust clouds that blind the sight of what lies behind them.  While in the new image, it is possible to see what is behind these pillars of stars, because "James Webb" takes pictures in the infrared range, which facilitates the penetration of these dust clouds and reveals what lies behind them.  It is similar - for the purpose of approximation - that someone breaks an arm and goes to the hospital to ask the doctor for an X-ray image, which penetrates the skin of the hand and shows the broken bones in the image. This is what James Web cameras do.  3 columns According to the NASA statement, the new image shows the reason for the appearance of the tops of the three columns in this way that resembles moving lava, as this region is full of emerging stars that sometimes release powerful jets of matter and energy, to move its surroundings of dusty clouds, and it appears in this way .  In fact, this is precisely the reason for giving it this name since the first picture of this region was taken about 30 years ago, as it resembles columns, and it is also a region full of newly emerging stars.  For this reason, this region of the sky attracts the attention of researchers who want to develop physical models that explain how stars arise in the dense dust clouds in space.

This region of the sky draws the attention of researchers who want to develop physical models that explain how stars are created in dense dust clouds in space.

Researchers from the James Webb Space Observatory announced the release of a new image of the "pillars of creation", which is the most accurate and detailed to date; It will enable researchers in this area to update their theoretical models that explain the origin and evolution of stars.

The pillars of creation are a wonderful celestial scene that represents part of the "Eagle" nebula, and this scene drew global attention when the Hubble telescope took a picture of it in 1995, and because of its distinctive shape - as if it were 3 celestial mountain peaks - it took an important place in astronomical documentaries over the past 3 decades.

The "Pillars of Creation" is a really vast region, extending to the equivalent of 7 to 10 solar systems of the ones in which we live, and located at a distance of 7,000 light years from Earth. A light year is a unit of distance measurement representing about 9.5 trillion kilometers.

Cloud penetration
According to an official statement from the US Space and Aviation Agency (NASA), the researchers used the "Nercam" camera on board the "James Webb", which captures images in the near-infrared range; This enabled the researchers to spot emerging stars in bright red.

When you compare this image with its predecessor, which was taken in 1995, or even to the most recent Hubble Telescope image that was taken in 2014, you can notice that the three pillars of creation in the previous images were blurry, because they are full of dust clouds that blind the sight of what lies behind them.

While in the new image, it is possible to see what is behind these pillars of stars, because "James Webb" takes pictures in the infrared range, which facilitates the penetration of these dust clouds and reveals what lies behind them.

It is similar - for the purpose of approximation - that someone breaks an arm and goes to the hospital to ask the doctor for an X-ray image, which penetrates the skin of the hand and shows the broken bones in the image. This is what James Web cameras do.

3 columns
According to the NASA statement, the new image shows the reason for the appearance of the tops of the three columns in this way that resembles moving lava, as this region is full of emerging stars that sometimes release powerful jets of matter and energy, to move its surroundings of dusty clouds, and it appears in this way .

In fact, this is precisely the reason for giving it this name since the first picture of this region was taken about 30 years ago, as it resembles columns, and it is also a region full of newly emerging stars.

For this reason, this region of the sky attracts the attention of researchers who want to develop physical models that explain how stars arise in the dense dust clouds in space.

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