A collision between our Milky Way galaxy and its largest neighbor, the Andromeda galaxy, predicted to occur in about 4.5 billion years, has been anticipated by astronomers since 1912. But new research suggests that the likelihood of this galactic clash, dubbed “Milkomeda,” is smaller than it seems. At first glance, it appears likely that the galactic duo — separated by about 2.5 million light-years — is on an inevitable collision course. The Milky Way and Andromeda are barreling toward each other at about 223,694 miles per hour (100 kilometers per second). However, the Local Group, or our corner of the universe, includes 100 known smaller galaxies. A team of astronomers factored in some of the largest among them, including the Large Magellanic Cloud, or LMC, and M33, or the Triangulum galaxy, to see how much of a role they might play on the chessboard of our galaxy’s future over the next 10 billion years. After factoring in the gravitational pull of Local Group galaxies and running 100,000 simulations using new data from the Hubble and Gaia space telescopes, the team found there is about a 50% chance of a collision between the Milky Way and Andromeda in the next 10 billion years. There is only about a 2% chance the galaxies will collide in 4 to 5 billion years as previously thought, according to the study published Monday in the journal Nature Astronomy. A merger of the Milky Way and Andromeda galaxies would destroy them both, eventually turning both spiral structures into one elongated galaxy, the study authors said. Collisions between other galaxies have been known to create “cosmic fireworks, when gas, driven to the center of the merger remnant, feeds a central black hole emitting an enormous amount of radiation, before irrevocably falling into the hole,” said study coauthor Carlos Frenk, professor at Durham University in England. “Until now we thought this was the fate that awaited our Milky Way galaxy,” Frenk said. “We now know that there is a very good chance that we may avoid that scary destiny.” However, there are many unknown factors that make it difficult to predict the ultimate fate of our galaxy, according to the study authors. And, Frenk warns, the Milky Way has a greater chance of colliding with the LMC within 2 billion years, which could fundamentally alter our galaxy. Simulating galactic collisions The LMC orbits the Milky Way, while M33 is a satellite of Andromeda. The LMC’s mass is only about 15% of the Milky Way’s. But the team found that the satellite galaxy has a gravitational pull, perpendicular to Andromeda, that changes the Milky Way’s motion enough to reduce the chance of a merger between the two giant galaxies. It’s a similar case for M33. “The extra mass of Andromeda’s satellite galaxy M33 pulls the Milky Way a little bit more towards it,” said lead study author Dr. Till Sawala, astronomer at the University of Helsinki in Finland. “However, we also show that the LMC pulls the Milky Way off the orbital plane and away from Andromeda. It doesn’t mean that the LMC will save us from that merger, but it makes it a bit less likely.” Previous research also has assumed most likely values for unknown data, such as the uncertainties in the present positions, motions and masses of the Local Group galaxies. In the new study, the team accounted for 22 different variables, including those unknowns, that could contribute to a collision. “We ran many thousands of simulations, which allowed us to account for all the observational uncertainties,” Sawala said. “Because there are so many variables that each have their errors, that accumulates to rather large uncertainty about the outcome, leading to the conclusion that the chance of a direct collision is only 50% within the next 10 billion years.” In just over half of the simulations predicting what could occur in 8 to 10 billion years, the Milky Way and Andromeda galaxies initially sailed somewhat closely past each other before circling back and then losing enough orbital energy to collide and merge as one galaxy. These initial close encounters between each galaxy’s halo — a large envelope of gas — would eventually lead to a collision. “In general, the merger would most likely involve a strong starburst, during which many new stars would form, followed by a period of intense radiation caused by exploding young stars and the newly active supermassive black hole, eventually shutting down star formation completely,” Sawala said. “A few billion years later, any traces of the former Milky Way and Andromeda would disappear, and the remnant would be a largely featureless elliptical galaxy.” In the other simulations, both galaxies crossed paths without disturbing each other. Geraint Lewis, a professor of astrophysics at the University of Sydney’s Institute for Astronomy, finds the results showing the gravitational influence of M33 and the LMC interesting. He has previously authored research on a potential collision between Andromeda and the Milky Way. “We won’t know if the collision is definitely off in the future, but this clearly shows that the story that people tell — that there will be a collision that will destroy the Milky Way and Andromeda — is not as clear or certain that people think,” Lewis said. “But even if there is a pretty close encounter rather than smashing head-on, the gravitational tearing that each will assert on each other is likely to leave the two large galaxies in a sorry state.” Predicting the cosmic future While including the LMC’s gravitational effects on the Milky Way is important, accounting for uncertainties is the most important aspect of the new study, said Scott Lucchini, a postdoctoral fellow in the Institute for Theory and Computation at the Center for Astrophysics, Harvard & Smithsonian. “Here, they’ve sampled from the uncertainties in the positions, velocities, and masses of the galaxies to obtain the relative probabilities of different outcomes,” Lucchini wrote in an email. “This really gives us the whole picture of what could happen in the future.” Galaxies are full of intricacies. Their shapes can become distorted, interactions can change their orbits and they can lose mass in different ways. Such complexities make predictions difficult, Lucchini said. That essentially leaves the fate of the Milky Way “completely open,” the study authors wrote in the new paper. However, more data coming from the Gaia space telescope in the summer of 2026 will provide measurements that refine some of the uncertainties about the speed and direction at which Andromeda is moving across the sky, Sawala said. The fate of Earth The fate of the sun may have a bigger impact on Earth’s future than the motions of galaxies, according to the researchers. Our sun is 4.5 billion years old. When it starts to die in another 5 billion years, it will swell into a red giant that engulfs Mercury, Venus and potentially Earth, according to NASA. “The short answer is that the end of the sun is far worse for our planet than the collision with Andromeda,” Sawala said. “While that merger would mean the end of our galaxy, it would not necessarily be the end of the sun or the Earth. Although our work also shows that earlier studies, that purported to predict precisely what the fate of the solar system would be after the merger, were clearly premature, in general, collisions between stars or planets are extremely rare during galaxy mergers. And while the end of the sun is certain, our study shows that the end of the galaxy is anything but.” While the team didn’t model a merger between the LMC and the Milky Way in detail, they found a “virtual certainty” that a merger between the two galaxies will occur within the next 2 billion years, which aligns with previous research, Sawala said. But the effects will likely be more minor than a merger between the Milky Way and Andromeda. “The merger (between the Milky Way and the LMC) will not destroy our galaxy but it will change it profoundly, particularly impacting our central supermassive black hole and the galactic halo,” Frenck wrote in an email. He also served as a coauthor on a 2019 paper on the potential merger.
Once inevitable collision between Milky Way and Andromeda galaxies now seems less likely, astronomers say
TruthLens AI Suggested Headline:
"New Research Reduces Likelihood of Milky Way-Andromeda Collision"
CNN
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TruthLens AI Summary
Astronomers have long anticipated a collision between the Milky Way galaxy and its largest neighbor, the Andromeda galaxy, predicting this event to take place in approximately 4.5 billion years. However, recent research indicates that the likelihood of this galactic collision, often referred to as 'Milkomeda,' may be significantly lower than previously thought. Initially, it seemed inevitable that these two galaxies, currently separated by about 2.5 million light-years and approaching each other at a staggering speed of approximately 223,694 miles per hour, were on a direct collision course. Yet, when factoring in the gravitational influences of other galaxies in the Local Group, including the Large Magellanic Cloud (LMC) and the Triangulum galaxy (M33), a team of astronomers discovered that the odds of a collision within the next 10 billion years stand at about 50%. The probability of a collision occurring in the next 4 to 5 billion years has been revised down to just 2%, as detailed in a study published in the journal Nature Astronomy.
This new perspective arises from extensive simulations that accounted for various unknown factors influencing galactic motions. The research highlights the gravitational effects of the LMC and M33, which alter the trajectory of the Milky Way and reduce the chances of a merger with Andromeda. While a merger would lead to the destruction of both galaxies, ultimately forming a featureless elliptical galaxy, the researchers emphasize that the Milky Way may face a more immediate threat from a potential collision with the LMC within the next 2 billion years. The study underscores the complexities involved in predicting cosmic events, noting that uncertainties in the positions, motions, and masses of galaxies contribute to the challenge. It also suggests that while the fate of the Milky Way remains uncertain, the eventual demise of our sun in about 5 billion years poses a more significant threat to Earth than any galactic collision. The ongoing research aims to refine these predictions with upcoming data from the Gaia space telescope, which may provide clearer insights into the dynamics of these celestial bodies.
TruthLens AI Analysis
A recent study suggests that the long-anticipated collision between the Milky Way and the Andromeda galaxies may not be as inevitable as previously thought. This information could reshape public understanding of astronomical events and the dynamics of our universe.
Purpose of the Article
The article aims to inform the public about new findings regarding the Milky Way and Andromeda galaxies, which have been subjects of fascination for over a century. By presenting a revised probability of collision, the study seeks to stimulate interest in astrophysics and encourage further exploration of cosmic events.
Impact on Public Perception
The findings might create a sense of relief or curiosity among the public regarding the future of our galaxy. The notion that a cosmic collision, once deemed certain, is now less likely may evoke discussions about the stability of our universe and its long-term fate.
Potential Concealments
While the article focuses on astronomical research, it might inadvertently overshadow other pressing scientific or societal issues. This tendency to prioritize sensational findings in space exploration could divert attention from critical terrestrial challenges, such as climate change or public health.
Manipulative Aspects
The article does not appear overtly manipulative, but it could evoke a sense of awe that may be used to promote further funding or interest in astronomical research. The language used is largely informative, with a focus on the fascinating dynamics of galaxies, which might inspire readers to support space exploration initiatives.
Truthfulness of the Information
The information presented in the article seems credible, as it references peer-reviewed research published in a reputable journal. The use of simulations and data from established space telescopes adds to the reliability of the findings.
Societal Implications
The news could spark increased interest in science and technology education, particularly in fields related to astronomy and astrophysics. It may also influence public discussions about the funding of scientific research and space exploration initiatives.
Target Audience
This article is likely to resonate more with audiences interested in science, particularly those who follow developments in astronomy. It may attract support from educational institutions and organizations focused on promoting scientific literacy.
Market Implications
While the article is unlikely to have immediate effects on stock markets or specific equities, it could influence companies and organizations involved in space exploration or scientific research funding in the long term. Firms specializing in technology related to space or academia may see a boost in interest.
Geopolitical Relevance
Although the article discusses astronomical phenomena, it does not directly relate to current geopolitical issues. However, the emphasis on scientific advancement and collaboration in space may reflect broader trends in international cooperation in research.
AI Involvement
There’s a possibility that AI tools were employed in the data analysis or simulation aspects mentioned in the study. Such tools could streamline the processing of vast datasets, enhancing the reliability of the findings.
Conclusion on Reliability
The article is considered reliable due to its reference to peer-reviewed research and credible sources. However, it is essential to remain critical of the potential for sensationalism in reporting scientific discoveries. The framing of the information can shape public perceptions and reactions to cosmic events.