Could Earth be ejected from the Solar System? Scientists say it's possible

Imagine Earth as a celestial snowball, flung into the abyss of interstellar space… Sounds like sci‑fi, right? But recent computer simulations suggest that a distant stellar neighbor could disturb our solar system's choreography over billions of years—and even eject our planet.
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What's happening?
A new study raises this serious alarm: our planet, Earth, could be knocked out of its orbit by passing stars!
A team led by Nathan Kaib (Planetary Science Institute) and Sean Raymond (University of Bordeaux) ran thousands of N‑body simulations that included not just the Sun and planets, but passing stars too. The results? A tiny, but non‑zero, chance Earth becomes cosmic roadkill—hurling either into the sun, colliding with another planet, or being flung outward toward Jupiter and beyond, potentially escaping the solar system.
What does the study say?
This fascinating but frightening idea suggests that cosmic events might threaten our planet long before the Sun eventually engulfs it in about five billion years.
Published in the journal
, the research is based on thousands of computer simulations. It highlights how a nearby "field star"—a star shining in the same part of the sky—could disrupt the Oort Cloud, the icy area that marks the edge of our solar system beyond Pluto.
The findings indicate that stars passing within 10,000 AU (Astronomical Units, about 10,000 times the distance from Earth to the Sun) could cause much more chaos than we thought.
Why now, and how?
Here's the cosmic scoop: according to astronomers Kaib and Raymond, this could increase the chances of instability for planets like Mercury by 50-80%. They estimate that there's a small chance—about 5%—that Pluto could experience chaotic gravitational interactions in the next five billion years.
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Even more startling, there's about a 0.3% chance that Mars could collide with another planet or be ejected from the solar system, and a 0.2% chance that Earth itself could face a collision or be tossed out of orbit. If Mercury's path were altered, it could set off a domino effect, potentially leading to collisions involving Venus, Mars, and even Earth. In the worst-case scenario, Earth might even end up spiraling toward the Sun or getting flung into space by Jupiter's gravity!
To put it simply, this research opens our eyes to the unpredictable nature of our cosmic neighborhood and reminds us just how fragile our place in the universe can be!
What's the cosmic timeline?
In case you're looking for a rough timeline:
Next ~1 Gyr:
life-supporting conditions fade due to solar brightening.
Within ~5 Gyr:
ejection chances—0.2% for Earth, ~4% for Pluto, about 5% chance of a dangerous stellar encounter within 100 AU.
Over 10–100 Gyr:
wandering stars may disrupt even more, ejecting survivors.
A Gyr stands for a gigayear, which represents a unit of time equal to one billion years.
More detailed simulations from arXiv show ~1% chance per Gyr of a star passage within 100 AU, and while 92% of planets stay fine, Mercury is vulnerable, and Earth could be reshuffled or ejected.
What happens to Earth then?
If Earth gets booted into interstellar space, goodbye cozy climate. Without the Sun's warmth, surface temperature plunges, atmosphere collapses and freezes, and only underground geothermal heat could support microbial extremophiles.
Imagine Earth drifting alone—no photosynthesis, no weather, no ocean currents. A cold, dark rock!
Should we start worrying now?
Not really—for now. The closest stellar approach likely isn't for another 1.3 million years, and ejection is extremely unlikely in our lifetimes—0.2% odds over 5 billion years.
And barring extreme future tech, no one's going to 'eject' Earth intentionally—the energy required is astronomically mind‑boggling.
Still, it's fascinating to think Earth isn't locked into its Sun forever. Over eons, cosmic billiards, rogue stars, and planetary chaos could rewrite our fate.
The last of words!
While the thought of Earth zooming through the void is dramatic and fun to imagine, the odds remain incredibly slim and billions of years away. That said, our solar system isn't as stable as once thought. As stellar surveys (like Gaia) track nearby stars, we're slowly mapping out our future celestial neighbors and the cosmic dice rolls that could shape our fate.
So the next time you gaze at the night sky, know it's not 'eternal'; and one day, far in the future, Earth might get an unexpected ticket out. But until then, let's savor our sunlit orbit and perhaps pen a sci‑fi tale or two!
Evidence of ninth planet found in solar system

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Time of India

7 hours ago

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Could Earth be ejected from the Solar System? Scientists say it's possible

Imagine Earth as a celestial snowball, flung into the abyss of interstellar space… Sounds like sci‑fi, right? But recent computer simulations suggest that a distant stellar neighbor could disturb our solar system's choreography over billions of years—and even eject our planet. Tired of too many ads? go ad free now What's happening? A new study raises this serious alarm: our planet, Earth, could be knocked out of its orbit by passing stars! A team led by Nathan Kaib (Planetary Science Institute) and Sean Raymond (University of Bordeaux) ran thousands of N‑body simulations that included not just the Sun and planets, but passing stars too. The results? A tiny, but non‑zero, chance Earth becomes cosmic roadkill—hurling either into the sun, colliding with another planet, or being flung outward toward Jupiter and beyond, potentially escaping the solar system. What does the study say? This fascinating but frightening idea suggests that cosmic events might threaten our planet long before the Sun eventually engulfs it in about five billion years. Published in the journal , the research is based on thousands of computer simulations. It highlights how a nearby "field star"—a star shining in the same part of the sky—could disrupt the Oort Cloud, the icy area that marks the edge of our solar system beyond Pluto. The findings indicate that stars passing within 10,000 AU (Astronomical Units, about 10,000 times the distance from Earth to the Sun) could cause much more chaos than we thought. Why now, and how? Here's the cosmic scoop: according to astronomers Kaib and Raymond, this could increase the chances of instability for planets like Mercury by 50-80%. They estimate that there's a small chance—about 5%—that Pluto could experience chaotic gravitational interactions in the next five billion years. Tired of too many ads? go ad free now Even more startling, there's about a 0.3% chance that Mars could collide with another planet or be ejected from the solar system, and a 0.2% chance that Earth itself could face a collision or be tossed out of orbit. If Mercury's path were altered, it could set off a domino effect, potentially leading to collisions involving Venus, Mars, and even Earth. In the worst-case scenario, Earth might even end up spiraling toward the Sun or getting flung into space by Jupiter's gravity! To put it simply, this research opens our eyes to the unpredictable nature of our cosmic neighborhood and reminds us just how fragile our place in the universe can be! What's the cosmic timeline? In case you're looking for a rough timeline: Next ~1 Gyr: life-supporting conditions fade due to solar brightening. Within ~5 Gyr: ejection chances—0.2% for Earth, ~4% for Pluto, about 5% chance of a dangerous stellar encounter within 100 AU. Over 10–100 Gyr: wandering stars may disrupt even more, ejecting survivors. A Gyr stands for a gigayear, which represents a unit of time equal to one billion years. More detailed simulations from arXiv show ~1% chance per Gyr of a star passage within 100 AU, and while 92% of planets stay fine, Mercury is vulnerable, and Earth could be reshuffled or ejected. What happens to Earth then? If Earth gets booted into interstellar space, goodbye cozy climate. Without the Sun's warmth, surface temperature plunges, atmosphere collapses and freezes, and only underground geothermal heat could support microbial extremophiles. Imagine Earth drifting alone—no photosynthesis, no weather, no ocean currents. A cold, dark rock! Should we start worrying now? Not really—for now. The closest stellar approach likely isn't for another 1.3 million years, and ejection is extremely unlikely in our lifetimes—0.2% odds over 5 billion years. And barring extreme future tech, no one's going to 'eject' Earth intentionally—the energy required is astronomically mind‑boggling. Still, it's fascinating to think Earth isn't locked into its Sun forever. Over eons, cosmic billiards, rogue stars, and planetary chaos could rewrite our fate. The last of words! While the thought of Earth zooming through the void is dramatic and fun to imagine, the odds remain incredibly slim and billions of years away. That said, our solar system isn't as stable as once thought. As stellar surveys (like Gaia) track nearby stars, we're slowly mapping out our future celestial neighbors and the cosmic dice rolls that could shape our fate. So the next time you gaze at the night sky, know it's not 'eternal'; and one day, far in the future, Earth might get an unexpected ticket out. But until then, let's savor our sunlit orbit and perhaps pen a sci‑fi tale or two! Evidence of ninth planet found in solar system

NDTV

a day ago

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Earth Could Be Ejected Out Of The Solar System, Study Warns

Earth could be thrown off its orbit and flung into another planet or the Sun, a new study has warned. Passing stars could be the orchestrator of this cosmic instability which could jeopardise our planet's health, much before the Sun annihilates it in five billion years as a red giant. Based on thousands of computer simulations, the study published in the journal Icarus, states that there is a chance that a passing field star -- a type of star that appears in the same region of the sky as another object being studied-- could cause more havoc than previously estimated. A star with mass comparable to our Sun passing within 10,000 astronomical units could significantly disrupt the Oort Cloud, which marks the outer boundary of our solar system beyond Pluto. "Passing stars are the most probable instability trigger during the next four billion years," the study highlighted, adding that planets in the solar system, as well as Pluto, were significantly less stable than previously thought. 'Our simulations indicate that isolated models of the solar system can underestimate the degree of our giant planets' future secular orbital changes by over an order of magnitude. In addition, our planets and Pluto are significantly less stable than previously thought,' Nathan Kaib and Sean Raymond, a pair of astronomers, wrote in May. The gravitational tug due to these stars could increase the risk of instability for Mercury by 50-80 per cent, and there is a five per cent chance of chaotic gravitational interactions for Pluto over five billion years. 'We also find an approximately 0.3 percent chance that Mars will be lost through collision or ejection and an approximately 0.2 percent probability that Earth will be involved in a planetary collision or ejected,' the researchers stated. In the event of Mercury's orbit being changed by the passing star, the resulting chaos could cause Venus or Mars to crash into Earth. In other instances, Earth might crash into the Sun, or Venus and Mars might fling Earth towards Jupiter. Afterwards, the giant planet's gravity ejects Earth from the solar system.