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Is it the most distant dwarf galaxy when it's 13.1 billion light years from Earth?
Yes, it's the most distant dwarf galaxy 13.1 billion light-years from Earth (i.e. MDC2010 1721 in the Hubble Ultra Deep Field).
Is it the most distant spiral galaxy when it's 13 billion light years from Earth?
Yes, it's the most distant spiral galaxy 13 billion light-years from Earth (i.e. SB-WF 1510-1270 in the Hubble Deep Field South).
Is it the most distant lenticular galaxy when it's 13 billion light years from Earth?
Yes, it's the most distant lenticular galaxy 13 billion light-years from Earth (i.e. BBG 3179 (a.k.a. HUDF-JD2) in the Hubble Ultra Deep Field).
According to Hubble's Law the most distant clusters of galaxies are?
The basic idea of Hubble's Law is that galaxies (or galaxy clusters) that are farther away move away from us faster than those that are closer to us.The most distant galaxy yet found is a protogalaxy with the designation UDFj-39546284, with a redshift z = 11.9, about 13.42 billion light-years distant from the Milky Way.In case you are asking for the most distant CLUSTER of galaxies, and not the most distant astronomical galaxy, the answer would be the cluster (or protocluster, science is not yet sure about the nature of this structure) which denomination is BoRG-58 , with a redshift z≅8, and about 12 billion light-years distant from us.
Where did Edwin hubble study?
Edwin Powell Hubble (November 20, 1889 - September 28, 1953) was an American astronomer who studied the most distant objects visible at the time and contributed to our understanding that the galaxy is expanding.
Which instrument has been used to detect the oldest most distant objects in the solar system?
The Hubble Space Telescope has been used to detect the oldest and most distant objects in the solar system. Its powerful cameras and instruments help astronomers study these objects, such as distant galaxies and stars, by capturing their light and providing valuable insight into their formation and evolution.
What was Edwin Hubble's equation?
Hubble's equation states that the velocity at which various galaxies are receding from the Earth is proportional to their distance from us.The law is often expressed by the equation v = H0D, with H0 the constant of proportionality (the Hubble constant) between the distance D to a galaxy and its velocity v. The SI unit of H0 is s-1 but it is most frequently quoted in (km/s)/Mpc, thus giving the speed in km/s of a galaxy one Megaparsec away. The reciprocal of H0 is the Hubble time.
Is there a picture of a distant star taken by hubble?
Yes, the Hubble Space Telescope has taken many images of distant stars. One notable example is a picture of a star known as "Pistol Star" in the Milky Way galaxy, which is one of the most luminous stars in the known universe. These images provide valuable insights into the nature and behavior of stars located far beyond our solar system.
What did Hubble find out about the most distant galaxies?
Hubble Space Telescope observations revealed that the most distant galaxies are much younger and smaller than those found nearby, providing insights into the early universe. These galaxies often exhibit irregular shapes and higher rates of star formation, indicating they are in a formative stage of evolution. Hubble's findings also support the concept of galaxy formation and evolution over cosmic time, showing that galaxies have grown and evolved significantly since their inception. Additionally, the discovery of these distant galaxies has helped refine the understanding of the universe's expansion and the influence of dark energy.
Which is the most distant galaxy visible to the unaided eye?
The Andromedia.
Is it the most distant dwarf galaxy when it's 13.2 billion light years from Earth?
Yes, it's the most distant dwarf galaxy 13.2 billion light-years from Earth (i.e. PCB2012 3020 in the MACS J1149+2223 galaxy cluster).
Can the Hubble Space Telescope detect radio waves?
I do not believe that the Hubble is equipped for radio astronomy. Certainly it can "detect" radio waves; it is remote-controlled by radio. But most radio astronomy is done with earth-based dish antennas.
