When Galaxies Collide: How The First Super-Massive Black Holes Were Born (2 of 3) When Galaxies Collide: How The First Super-Massive Black Holes Were Born (3 of 3) ...

These findings will help scientists understand how giant galaxies interact, collide, and merge to produce ... incredible speed of over 2 million mph (3.2 million km/h), leading to an immensely ...

"A larger number of star clusters are only 3.5 million years old ... young star clusters indicates that this galaxy was part of a recent galaxy collision and merger. "The perturbed structure ...

An ultra-deep image from the National Science Foundation's Dark Energy Camera reveals a wide variety of galaxies in the ...

About 100 years after astronomer Edwin Hubble's discovered the "magnificent" spiral nebula, the Hubble Space Telescope and ...

According to a new study, our Milky Way galaxy may have already begun colliding with the closest giant galaxy, Andromeda. Published in Nature Astronomy, the study reveals that there may be a ...

Galactic mergers play a key role in the evolution of the universe, driving the growth of larger galaxies and the overall ...

In a study published today by The Astrophysical Journal Letters, a research team led by Yale University’s Imad Pasha ...

The majority of galaxies, including our own Milky Way, have black holes in their core. It is typically a sign that two or more black holes are interacting or colliding when they are seen near one ...

As indicated earlier in this issue, colliding galaxies emit radio waves. The distribution of radio sources suggests that many are galaxies in collision beyond the range of the 200-inch telescope!