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Incredible video by James Webb bringing space closer to the South Rim Nebula

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Fascinating: A new video offers viewers a glimpse into the universe as NASA's Super Space Telescope approaches a dying star.
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A breathtaking new video offers viewers a glimpse into the universe as NASA’s Super Space Telescope approaches a dying star.

The footage shows the James Webb Space Telescope taking dazzling, unprecedented images of the cosmos as it travels back in time to the Big Bang about 13.7 billion years ago.

The public is invited to “get on board for the ride” as Webb hurtles toward a planetary nebula some 2,500 light-years from Earth, known as the South Rim Nebula.

Despite being called a “planetary nebula”, it actually has nothing to do with planets.

Instead, it’s a giant, expanding sphere of gas and dust, illuminated by the dying star at its core.

A dust-covered star has been throwing rings of matter in all directions for thousands of years.

This is because as stars age, they change the way their outer layers produce energy and send it out before activating the same material when they become very hot again.

In short, in addition to studying how the first stars were born, Webb will also catalog how they die.

Fascinating: A new video offers viewers a glimpse into the universe as NASA’s Super Space Telescope approaches a dying star. “Standing on board for the ride,” the public can watch as Webb takes a picture of the South Rim Nebula, 2,500 light-years from Earth.

Explanation: Despite being called a

Explanation: Despite being called a “planetary nebula”, it actually has nothing to do with planets. Instead, it’s a giant, expanding sphere of gas and dust, illuminated by a dying star at its center.

WHAT IS THE DIFFERENCE BETWEEN WEBB AND HUBBLE?

NASA prefers to think of James Webb as Hubble’s successor rather than his replacement, as the two will work in tandem for a while.

This is because they look at stars and galaxies differently.

Hubble studies the Universe primarily in the optical or visible wavelength range. the same type of light that we detect with our eyes.

Webb, on the other hand, is tuned specifically to observe in the infrared, invisible to our eyes, but allowing him to identify the glow of the most distant objects in the universe.

It works in much the same way that night vision goggles use thermal imaging technology to capture infrared light.

The image was one of five striking images released by NASA last week as part of the first set of full-color images taken by the new $10 billion (£7.4 billion) observatory.

Others included an unprecedented look at the “stellar nursery” and “cosmic dance” between a group of galaxies, and Webb also found hints of water vapor in a distant exoplanet’s atmosphere.

He captured the South Rim Nebula, Stefan’s Quintet, the Carina Nebula, the spectrum of exoplanet WASP-96 b, and the cluster of galaxies known as SMACS 0723.

The latter was seen as it was 4.6 billion years ago, although there were many more galaxies ahead and behind the cluster, including light from one that traveled 13.1 billion years before being captured by Webb’s mirrors.

Webb’s first images were just the “tip of the iceberg” of what the observatory is expected to do over the next 20 years, which could include capturing the very first shining stars, finding habitable planets in distant galaxies, and peering into the past. within 100-200 million years after the Big Bang.

What most astronomers worried about, however, beyond the prospect of witnessing the dawn of the universe more than 13.5 billion years ago, were the unknowns that Webb could detect, like his predecessor Hubble.

The famous space telescope, launched in 1990, helped detect dark energy and also provided superb images of the cosmos, including the Pillars of Creation, one of the most iconic images in astronomy.

Among the most important scientific instruments ever made, Hubble has made over 1.5 million observations of over 43,500 celestial objects and helped publish about 18,000 scientific papers.

This contributed to a number of major discoveries in astronomy, including the observation that the observed expansion of the universe is accelerating.

Two cameras aboard Webb captured this planetary nebula, known as the South Rim Nebula.  One image was taken in the near infrared (left) and the other in the mid-infrared (right).

Two cameras aboard Webb captured this planetary nebula, known as the South Rim Nebula. One image was taken in the near infrared (left) and the other in the mid-infrared (right).

Webb, which was launched on December 25 last year, will probe the universe in infrared, allowing it to see through clouds of gas and dust where stars are born.

Webb, which was launched on December 25 last year, will probe the universe in infrared, allowing it to see through clouds of gas and dust where stars are born.

Webb, however, is 100 times more powerful than the godfather of space telescope astronomy and can see much deeper into space.

Hubble studies the universe predominantly in the ultraviolet and optical, or visible, wavelengths, the same type of light that we detect with our eyes.

Webb, on the other hand, is tuned specifically to observe in the infrared, invisible to our eyes, but allowing him to identify the glow of the most distant objects in the universe.

It works in much the same way that night vision goggles use thermal imaging technology to capture infrared light.

As the universe expands, nearly all of the galaxies we see from Earth are moving away from us. This means that it seems to us that their light has a large wavelength or redshift.

For very distant objects, this redshift is so high that they can only be observed in the infrared spectrum, where Webb appears, while Hubble focuses on ultraviolet light.

For this reason, they will work in tandem for some time so that scientists can analyze the data provided by both to help expand our knowledge of the cosmos and how humans first appeared.

Webb began development in 1996 and was originally scheduled to launch in 2007, but a major upgrade in 2005 brought it back, and a series of further delays saw it eventually enter orbit late last year.

JAMES WEBB TELESCOPE

The James Webb Telescope has been called a “time machine” that can help unravel the mysteries of our universe.

The telescope will be used to look back at the first galaxies born in the early universe more than 13.5 billion years ago and observe the sources of stars, exoplanets and even our solar system’s moons and planets.

Already worth over $7 billion (£5 billion), the huge telescope is said to be the successor to the Hubble Orbiting Space Telescope.

The James Webb telescope and most of his instruments have an operating temperature of approximately 40 Kelvin – about minus 387 Fahrenheit (minus 233 Celsius).

This is the world’s largest and most powerful orbiting space telescope, capable of looking 100-200 million years ago after the Big Bang.

The Orbital Infrared Observatory is designed to be about 100 times more powerful than its predecessor, the Hubble Space Telescope.

NASA prefers to think of James Webb as Hubble’s successor rather than his replacement, as the two will work in tandem for a while.

The Hubble Telescope was launched on April 24, 1990 by the Space Shuttle Discovery from the Kennedy Space Center in Florida.

It orbits the Earth at about 17,000 miles per hour (27,300 km per hour) in low Earth orbit at an altitude of about 340 miles.

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