Part 1: Error CorrectionRead the following article. There ar…

Pаrt 1: Errоr CоrrectiоnReаd the following аrticle. There are 15 errors in Adjective Clauses. Find and correct at least 10 of them. You will not be graded down for wrong answers, so try to find all 15.Black Holes    1 |      Astronomers have long wondered how supermassive black holes, which     2 | they form under extreme gravitational forces, ended up at the center of every     3 | galaxy. Initially, the theory was simple: Black holes formed in regions, that had     4 | high concentrations of matter, and had billions of years to consume it, growing     5 | larger over time. However, as astronomers look back into the early Universe,     6 | they find more supermassive black holes who are challenging current theories,     7 | implying these must have formed quickly.    8 |      The Webb Space Telescope, who has transformed astronomical     9 | observation, has brought this issue to a critical point. When matter falls into a    10 | black hole, it emits radiation whose intensity increases as the black hole    11 | consumes more matter. This radiation that can disrupt nearby matter pushes    12 | matter away, and this limits the black hole's feeding ability. This sets a growth    13 | limit for black holes unless matter falls in directly without radiating. Early    14 | supermassive black holes, that have been observed by Webb, appear to have    15 | pushed this growth limit throughout their existence.   16 |      Recently, Webb found a potential answer to this problem. It observed a    17 | black hole. That has been feeding at 40 times the theoretical limit for millions of    18 | years, growing fast enough to become supermassive. When matter falls into a    19 | black hole, it usually forms an accretion disk whose orbits and heats up,    20 | radiating energy. This radiation limits further feeding, known as the Eddington    21 | Limit, who is a fundamental concept in astrophysics.   22 |      This black hole, LID-568 which was first spotted by the Chandra X-ray    23 | Telescope was identified by its X-ray brightness. Infrared imaging by Webb    24 | showed that most of its light comes from the accretion disk. Observations    25 | suggest it resides in a dwarf galaxy that the galaxy has relatively few stars, with    26 | a mass about a million times that of the Sun, making it small but unusually bright.   27 |      Webb also detected high-speed gas that it was moving at over 500    28 | kilometers per second, suggesting that LID-568 has been emitting intense    29 | radiation for millions of years. The researchers concluded that this black hole,    30 | which it may have started as a smaller black hole, might have grown rapidly by    31 | feeding in a massive gas cloud.   32 |      This discovery, which could it offer answers to cosmological puzzles,    33 | suggests that early black holes may have grown faster than expected. However,    34 | LID-568 is unique, and finding more black holes, that resemble it, could confirm    35 | whether this process was common in the early Universe.