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SpaceX – James Webb Telescope Terrifying NEW Discovery Of Black Holes

SpaceX, James Webb Telescope Terrifying NEW Discovery Of Black Holes, They have always fascinated mankind, which is why we will go to any extent and spend billions of dollars to uncover them, one of the most expensive mysteries that man is not able to resist when you put your head in the sky.

The universe has fascinated humans ever since their discovery of black holes and in the latest attempt to unlock their secrets, we’ve sent the mighty James Webb Space Telescope into space to join us as we explore black holes in the James Webb Space Telescope.

Everything is about to set new world records in terms of how far to find information, how far you can dig for something before it leaves mankind, we’ve always been so obsessed that we’re here Why are we stopping what we do to look for answers?

Now the answer is taking us into deep space and billions of years in the past and we have a powerful weapon to aid in the search for the meaning of life James Hum BB Space Telescope or JWST in short is not the first space telescope that humans have ever discovered in space. To spy on anything or whoever is out there.

We already have the Chandra X-ray Telescope launched in 1999 and the most powerful X-ray telescope. examines the X-rays emitted by some of the universe’s strangest objects including giant clouds of quasar gas and dust and particles sucked into black holes, but certainly the granddaddy and most beloved of space telescopes Hubble is honestly our eye.

From its position in Earth’s orbit in space since the 1990s it has shed light on the life cycles of stars and the formation of galaxies on the vast majority of the universe, so just what does it bring to the table that we don’t already have the truth? Hubble scientific successor is justified because its science goals were inspired by Hubble results.

At this point it is important to point out that Hubble is not a replacement, but a successor that serves a different purpose than Hubble and is also different in how they operate before Hubble is in a closer orbit around Earth than Earth. Stays up about 350 miles while going away in space.

Its final location is at one point a million miles away. Also known as the second Lagrange or L2 point, while one will primarily observe the universe in the infrared, Hubble studies it primarily at optical and ultraviolet wavelengths. It does have some infrared capabilities though.

These instruments provide wavelength coverage from 0.6 to 28 micrometer or microns, the infrared part of the electromagnetic spectrum, from about 0.75 microns to a few hundred.

This means that the devices operate mainly in the infrared range of the electromagnetic spectrum. T of the visible spectrum with some capability in the visual range especially in terms of cross shape in red and yellow is the largest space telescope we’ve launched so far that the team had to fold it to fit on a launch rocket.

It has an approximately 6.5 m diameter primary mirror which gives it for example a much larger collection area than the mirrors available on the current generation of space telescopes, for example 2.4 m in diameter is much smaller and has an associated collection area of ​​4.5 m square. Which gives about 3:46 6.25 times more storage area.

It has a larger field of view than the Nikmos camera on Hubble, covering almost more than 15 times the field of view, it also has significantly better spatial resolution than is available with the infrared Spitzer Space Telescope, the most distinctive features of the JWST.

This means it needs cold temperatures to keep it at an extra-cold temperature so that there is no interfering infrared e mission. This shield is one of the most complex objects ever launched into space, notably There are five layers of materials created that must be precisely positioned for the system to work.

Each layer is about 21 meters long and 14 meters wide at the point so as to get how wide this is just picture Serena Williams playing tennis on a standard court These shield layers were so big they had to be folded and then exposed Hubble has been visited as the telescope was traveling to its permanent residence.

for repair by humans but it is not even remotely possible at least for now so everything should have been fine for the first time nasa estimates it has enough fuel to work for 10 years after which if possible It can be refilled.

If not to live as a silent 10 billion centuries in outer space, but within that 10 years our knowledge of why we are here and how we got here will expand, our story of the universe starting about 14 billion years ago What scientists have called the Big Bang.

Clumps of lurid blues and purples known as the cosmic microwave background radiation reveal minute changes in temperature and density in the early universe some 400,000 years after the Big Bang using the NASA Cosmic Background Explorer satellite in the 1990s This is the first meaningful snapshot of.

But thanks to we look back in time and space to see the first stars and galaxies formed from hot dense clumps of gas and dust, but what we’ll see is that it’s really exciting black holes with their seemingly insatiable Famous for being hungry, they swallow everything around them.

If you favor sci-fi movies you may have seen them eating the spaceships of the bad guys in the grand finale, although black holes are real because they swallow everything up because they are the densest concentration of matter in space, a A region that has such a strong gravitational pull that not even light can escape from a stellar-mass black hole.

The mass of which can be tens of times the mass of the Sun, which can form in seconds after the collapse of one. Larger stars Relatively smaller black holes can also be created through the merger of two dense stellar remnants called neutron stars.

A neutron star can also combine with a black hole to form a larger black hole, or two black holes can collide to form a black hole that accelerates and produces waves in space-time called gravitational waves. Scientists around the world are observing Sagittarius, a supermassive black hole at the center of the Milky Way.

The way the galaxy they know exists is a black hole, which is revealed by its gravitational effects, but imaging has proven the elusive Sagittarius it won’t be the first black hole to be imaged in April 2019, 200 from around the world. It was unveiled by a group of astronomers over the years.

The first image of a black hole They used the event horizon telescope or an array of radio telescopes to image the black hole at the center of the galaxy Messier 87, or m87. The team compiled images from eight telescopes on five continents working over an observation period. The seven-day long m87 is located at a distance of about 55 million light-years from Earth.

It weighs about 6.5 billion times the mass of the Sun, much larger than Sagittarius, although scientists are more interested in Sagittarius, the center of our galaxy, than it will now lead. Attempts to image this black hole It is located at a distance of about 27000 light years from us.

This is 4 million times the mass of the Sun, therefore making Sagittarius challenging to image, even though it is closer to us and smaller than m87V The first black hole image showed the black hole’s silhouette surrounded by a luminous halo Is.

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