In death, there may be great beauty.
Astronomers point to the powerful James Webb space telescope on the planetary nebula NGC 1514, where a star is gradually draining its fuel and shrinking its fuel to its dense core, immersing a large amount of gas into the universe, the shell of its former self. The resulting cosmic clouds are called “planetary nebula” simply because these distant and round objects through the first telescope look like planets – which can be brilliant glasses, and so is NGC 1514.
NASA released online, NGC 1514 is released online.
(The Webb telescope browses space in infrared, a spectrum that is invisible to the naked eye, but cuts into a large number of clouds and gases that block or limit our perception of objects so far away.)
NASA abandoned a new report. This is a wake-up call.
NASA explained that the following figure shows a development scenario that has been in place for at least 4,000 years. At the center of the gaseous structure are two stars tightly orbiting one another (a “binary star system), but from our distant view they appear as one vivid bright dot. Of the two stars, one is dying as it’s spend the nuclear fuel in its core and sheds its outer layers into space. Just a prominently dense core, called a white dwarf, remains. Its radiation lights up the surrounding cosmic cloud, or nebula, helping to Scenarios in NGC 1514.
Planetary nebula are usually spherical, but not spherical for NGC 1514, 1,500 light years from Earth. Its hourglass has a bit of shattered shape and has two protruding rings. “When the star is at the peak of losing material, the companions can be very, very close,” said David Jones, an astronomer at the Canary Islands Institute of Astrophysics, in a NASA statement. “This interaction leads to shapes you won’t expect. Instead of creating spheres, this interaction may have formed these rings.”
Detailed view of the planetary nebula NGC 1514 by James Webb Space Telescope.
Credits: NASA/ESA/CSA/STSCI/Michael Ressler (NASA-JPL)/Dave Jones (IAC)
On the left: The landscape of NGC 1514 was captured in 2010 by the Wide Infrared Investigation Explorer (Wise) telescope.
Credits: NASA / ESA / CSA / STSCI / NASA-JPL / CALTECH / UCLA / MICHAEL RESSLER (NASA-JPL) / DAVE JONES (IAC)
Astronomers involved in this observation suspected that the rings of the nebula looked “blurred” because they were made of tiny dust, which were illuminated by ultraviolet light from nearby white dwarves.
Mixable light speed
Astronomers have stared at NGC 1514 for hundreds of years since the 18th century. It looked blurry at that time and they failed to solve it with the telescope of the times. But times and technology have changed.
“With Weber, our viewpoint is clearer,” NASA wrote.
The powerful capabilities of the Weber telescope
The Webb Telescope is a scientific collaboration between NASA, ESA and the Canadian Space Agency to gaze at the deepest universe and reveal new insights about the early universe. It also studies interesting planets in our Milky Way, as well as planets and moons in our solar system.
This is how Weber achieves an unparalleled feat, and it will likely be in the next few years:
– Giant Mirror: Webber’s mirror capturing the light crossed 21 feet. This is two and a half times larger than the Hubble Space Telescope mirror, which means the Webb’s light-receiving area is six times larger. Capture more light, allowing Weber to see ancient objects farther away. The telescope stared at the stars and galaxies more than 13 billion years ago, and the Big Bang was only a few hundred million years old. University of Wisconsin-Milwaukee astronomer and director of the Manford Olson Planetarium, Jean Creighton, told Mashable in 2021.
– Infrared view: Unlike Hubble, this largely sees the light we can see, Webb is primarily an infrared space telescope, which means it looks at the light in the infrared spectrum. This allows us to see more of the universe. The wavelength of infrared is longer than visible light, so light waves pass through the cosmic cloud more efficiently. Light collided and spread less frequently with these dense packaging particles. Ultimately, Weber’s infrared vision can penetrate where Hubble cannot.
“It lifts the veil,” Clayton said.
– Gaze at distant exoplanets: Weber Telescope Professional equipment called spectrometer This will completely change our understanding of these distant worlds. These instruments may decipher molecules (such as water, carbon dioxide, and methane) that exist in the atmospheres of external stars in the distance – whether it is gas giants or the smaller rocky world. Weber looked at exoplanets in the Milky Way way. Who knows what we will find?
“We might learn something we never thought,” Mercedes López-Morales, an exoplanet researcher at the Center for Astrophysics – Hawad and Smithsonian Center, an astrophysicist and an astrophysicist who had previously told Mashable.
