100-Centillion Solar-Massed Quasar vs. IC 1101 Galaxy

Attribute	100-Centillion Solar-Massed Quasar	IC 1101 Galaxy
Size	Extremely massive	One of the largest known galaxies
Mass	100-Centillion times the mass of the Sun	Estimated to be around 100 trillion times the mass of the Sun
Location	Located in the distant universe	Located in the Abell 2029 galaxy cluster
Age	Unknown	Estimated to be around 13.6 billion years old
Shape	Quasar	Elliptical galaxy

Size

The 100-Centillion Solar-Massed Quasar is an incredibly massive object, with a size that dwarfs even the largest galaxies. It is estimated to be billions of light-years across, making it one of the largest known structures in the universe. In comparison, IC 1101 Galaxy is also massive, but on a smaller scale. It is around 6 million light-years in diameter, which is still impressive but pales in comparison to the sheer size of the quasar.

Mass

As the name suggests, the 100-Centillion Solar-Massed Quasar is incredibly massive, with a mass of around 100 centillion times that of our Sun. This makes it one of the most massive objects in the universe. On the other hand, IC 1101 Galaxy is also massive, but its mass is estimated to be around 100 trillion times that of our Sun. While still impressive, it is clear that the quasar is on a whole other level when it comes to mass.

Energy Output

The 100-Centillion Solar-Massed Quasar is known for its incredibly high energy output, which is produced by the supermassive black hole at its center. This energy output is so intense that it can outshine entire galaxies. In contrast, IC 1101 Galaxy has a more moderate energy output, generated by the stars within the galaxy. While still significant, it is clear that the quasar is the more powerful of the two when it comes to energy production.

Structure

The structure of the 100-Centillion Solar-Massed Quasar is dominated by the supermassive black hole at its center, which is surrounded by a swirling disk of hot gas and dust. This structure is what gives the quasar its intense energy output. On the other hand, IC 1101 Galaxy has a more typical galaxy structure, with spiral arms and a central bulge of stars. While both structures are impressive in their own right, the quasar's structure is more unique and extreme.

Age

The 100-Centillion Solar-Massed Quasar is believed to be relatively young in cosmic terms, with an age of around a few billion years. This is because quasars are thought to be powered by the infall of matter onto the supermassive black hole, which eventually exhausts the available fuel. In contrast, IC 1101 Galaxy is much older, with an estimated age of around 12 billion years. This makes it one of the oldest and most massive galaxies in the observable universe.

Location

The 100-Centillion Solar-Massed Quasar is located in a distant corner of the universe, billions of light-years away from Earth. Its extreme distance makes it difficult to study in detail, but also adds to its mystique and allure. On the other hand, IC 1101 Galaxy is much closer to us, located in the Abell 2029 galaxy cluster, which is around 320 million light-years away. This proximity allows astronomers to study IC 1101 in more detail than the quasar.

Conclusion

In conclusion, the 100-Centillion Solar-Massed Quasar and IC 1101 Galaxy are both incredibly massive and impressive objects in the universe. However, they differ in terms of size, mass, energy output, structure, age, and location. The quasar stands out for its extreme size, mass, and energy output, while the galaxy is notable for its more typical structure and older age. Both objects offer valuable insights into the nature of the universe and the processes that govern the formation and evolution of cosmic structures.