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STUNNING image of Tarantula Nebula captured by THIS reveolutionary telescope
STUNNING image of Tarantula Nebula captured by THIS reveolutionary telescope
Scientists have captured a stunning image of 30 Doradus, also known as the Tarantula Nebula. Located around 170,000 light years from Earth, it is one of the brightest star forming regions present in the Large Magellanic Cloud.
By:
SHAURYA TOMER Updated on: Aug 02 2022, 15:09 IST
The stunning image was captured by scientists using the data collected via the revolutionary Atacama Large Millimeter/submillimeter Array (ALMA) telescope located in the Antofagasta Region of the Atacama Desert in Chile. (REUTERS)
1/5 The stunning image was captured by scientists using the data collected via the revolutionary Atacama Large Millimeter/submillimeter Array (ALMA) telescope located in the Antofagasta Region of the Atacama Desert in Chile. (REUTERS)
The Tarantula Nebula is present at the center of the Large Magellanic Cloud, a satellite galaxy of the Milky Way system and has given birth to more than 800,000 stars, some of them nearly 150 times the size of the Sun. This makes the Tarantula Nebula one of the prime observation destinations for researchers and science buffs alike. (NASA)
2/5 The Tarantula Nebula is present at the center of the Large Magellanic Cloud, a satellite galaxy of the Milky Way system and has given birth to more than 800,000 stars, some of them nearly 150 times the size of the Sun. This makes the Tarantula Nebula one of the prime observation destinations for researchers and science buffs alike. (NASA)
"What makes 30 Doradus unique is that it is close enough for us to study in detail how stars are forming, and yet its properties are similar to those found in very distant galaxies when the Universe was young,” said European Space Agency (ESA) scientist Guido De Marchi. "Thanks to 30 Doradus, we can study how stars used to form 10 billion years ago, when most stars were born." He added further. (NASA/Hubble)
3/5 "What makes 30 Doradus unique is that it is close enough for us to study in detail how stars are forming, and yet its properties are similar to those found in very distant galaxies when the Universe was young,” said European Space Agency (ESA) scientist Guido De Marchi. "Thanks to 30 Doradus, we can study how stars used to form 10 billion years ago, when most stars were born." He added further. (NASA/Hubble)
The 30 Doradus is also called the Tarantula Nebula because of its glowing filaments which resemble spider legs, according to NASA. The Nebula is special as it can be seen in the Southern sky with the naked eye. It resembles a large milky patch of stars when viewed from Earth. (NASA/ESA)
4/5 The 30 Doradus is also called the Tarantula Nebula because of its glowing filaments which resemble spider legs, according to NASA. The Nebula is special as it can be seen in the Southern sky with the naked eye. It resembles a large milky patch of stars when viewed from Earth. (NASA/ESA)
The findings of the observation state that gravity is still responsible for the formation of the milky way galaxy and it is still shaping up the galaxy, which has aided in the continuous formation of stars. Tony Wong, a professor from the Astronomy Department at the University of Illinois said, "Our results imply that even in the presence of very strong feedback, gravity can exert a strong influence and lead to a continuation of star formation.” (NASA)
5/5 The findings of the observation state that gravity is still responsible for the formation of the milky way galaxy and it is still shaping up the galaxy, which has aided in the continuous formation of stars. Tony Wong, a professor from the Astronomy Department at the University of Illinois said, "Our results imply that even in the presence of very strong feedback, gravity can exert a strong influence and lead to a continuation of star formation.” (NASA)