The Mule, as played by Pilou Asbæk, has brought both menace and mystery to Foundation‘s third season. He’s more than made good on the terrifying visions that prefaced his arrival—we know he’s destined for a vicious battle against Foundation heroine Gaal Dornick (Lou Llobell)—with his cruel, crafty plan to take over the galaxy. He uses his amplified psychic powers to manipulate people to commit horrors, all while claiming he merely desires to be loved.
Such complexity has to come from somewhere, and “Foundation’s End,” the seventh episode of Foundation season three, gives us a peek into the Mule’s shocking backstory. Or… does it?
“Foundation’s End” begins on a planet we’ve never seen before. We’ve been hearing about how the Foundation controls important “breadbasket” worlds, and this is one of them: Rossem, “on the edges of the outer reach.” The time frame is “years before,” an imprecise figure on a show that usually likes to be very exact with its numbers.
Amid a field of crops, a woman holding a baby watches a large vehicle drive by. She remarks to her other son—who looks around 12 or so—that the neighbors, the Bartons, don’t like seeing her with the infant. At first, it’s not clear why. “They’re good folk,” she insists to the boy when he suggests the Bartons wish they could take the baby. Maybe, the viewer thinks, they’ve been trying to have children and have been unsuccessful.
That thought gets pushed aside when, as the kid and his mom are gently arguing about his sweet tooth, giant machines arrive. The mom calls them “pullers,” and they’re clearly there for harvesting, but they’ve arrived a week early. The machines aren’t what makes the family run home, though. We see a Foundation whisper-ship land in their yard, carrying “assessors” who’ve come to check up on them.
We get an idea of what’s happening as the mom pauses, mid-sprint, to yank baby clothes off the outside line. Inside the house, it’s frantic. Mom raids her older son’s secret candy stash and gives it to the baby as she’s hiding it in a secret cabinet. “That’s mine,” the kid whines, though it’s certain he knows what’s about to happen.
The Foundation’s pompous assessors stride in, talking about “allocations” of supplies. The family is clearly stretched thin, though the father nervously blames pirates for people not sharing as they once did. It’s tense, but the visitors are wrapping up their visit when everyone hears it: the baby cries.
Mom and Dad try to claim it’s “the Barton’s baby, from next door.” They were just watching it, you see, and tucked it away so the assessors wouldn’t think they were violating the Foundation’s strict one-child policy.
The assessor is no fool and reminds them the Foundation “trusts in the mass deleter solution.” They have two children. They’re only allowed to have one. So when he returns in 30 days, he says, “You’ll have one child.” He swans out with a leering grin as the devastated parents hold each other and sob, and the boy looks very worried. “See you next month!”
Though we’ve seen how the Foundation’s leadership has evolved—there’s barely any trace of Hari Seldon’s original group of brave, intellectually adventurous settlers left—we haven’t seen the toll its expansion has taken on ordinary people generations later. Now, we realize that the Foundation’s great success hasn’t come without a price.
The episode then jumps to “now,” as we see Trantor reacting to the Mule’s invasion of New Terminus, then the chaos on New Terminus itself. The Mule smoothly converts the feckless Mayor Indbur and his Warden to his cause; in a later scene, he has his little-girl sidekick tell Indbur the Mule wants him to drown himself, which the man does “with pleasure.” It’s ghastly.
“Drowning… bad way to go,” the Mule muses. We return to the flashback on Rossem, and it’s now clear this is the Mule in his youth. The family goes to the edge of a reservoir, which the dad calls “pretty,” though it’s a grim, smoky landscape. “Here is a good place,” he tells the mother, and marches toward the boy, holding a rope behind his back.
This is already horrifying enough, but the boy knows what’s coming and yells in protest. Can’t the Bartons take the baby? No, they can’t; they’re only assessed for two family members. And they surely wouldn’t want to take in an older child either. As the boy screams (“But you love me!”), his eyes get that silver look we’ve seen the Mule’s take on when he’s activating his powers. First his dad goes into a trance and plunges under the water, then his mom, after carefully setting the baby on the shore, does the same.
“You want to be there … “You like to make me happy,” the Mule’s young voice echoes through their dying minds. “You love me more than anything,” he says aloud. He leaves then and there, then places his baby brother on the Barton’s porch and scampers off.
As Foundation cuts back to New Terminus, we see that the Mule has been standing next to the Vault, sharing his story aloud for the benefit of one Hari Seldon. (We can’t see him, but Mule is counting on him to be listening to every word.) While we’re digesting this gruesome tale—while thinking back to an odd moment in episode three, in which the Muse paused mid-massacre to say, enigmatically, that sometimes his life doesn’t feel like his own—he finishes up by saying he escaped his home world by joining up with the pirates. The pirates were thought to be bad guys, he notes, but they “never took as much as you.”
When there’s no response, the Mule mutters “coward” and turns to leave—but grins big when he hears Seldon’s voice. “That’s a very tragic story… I wonder how much of it is true.”
The Mule replies with a wide, toothy smile: “Oh, the truth comes banging on your door, Hari Seldon.”
Do you think the Mule was telling the truth about his childhood? (If so, what happened to his brother?) Or do you think he’s an unreliable narrator at the peak of his powers, spinning a tale carefully calibrated for his intended audience? Why would he want to share the story with Hari Seldon in the first place?
We’ll find out more, but there are just three episodes of Foundation left to puzzle through the Mule’s scheme and get to that deadly face-off with Gaal. (Also, we didn’t discuss it here, but what’s going to happen to Brother Day now that he’s in the clutches of the robot cult?)
New episodes of Foundation arrive Fridays on Apple TV+.
Want more io9 news? Check out when to expect the latest Marvel, Star Wars, and Star Trek releases, what’s next for the DC Universe on film and TV, and everything you need to know about the future of Doctor Who.
Source link
#Finally #Mules #Backstory #Foundationor
![Scientists Say Some Black Holes Are Born From Other Black Holes
Since LIGO’s Nobel-winning discovery of gravitational waves—ripples in spacetime—the U.S.-based detector has been picking up on hundreds of signals from black hole mergers. And, after a decade of studying gravitational waves, researchers believe a significant fraction of black holes may come from cosmic chain reactions. A recent paper published in Physical Review Letters describes an analysis of 155 pairs of binary black holes, identified by LIGO and its sisters, Virgo and KAGRA, in Italy and Japan, respectively. According to the study, about 14% of merging black holes may be what’s called “second-generation black holes,” or black holes that form from previous mergers of two smaller black holes. This “hierarchical” backstory is vastly different from the textbook version of how black holes emerge from the explosive death of a star. “Overall in the universe, black holes are merging all the time,” Cailin Plunkett, the study’s first author and a graduate student at the Massachusetts Institute of Technology, told MIT News. “Now we’re seeing a relatively consistent picture where there’s a decent percentage of black holes that are coming from this repeated pathway.”
Tracking the invisible Gravitational waves that reach Earth’s detectors typically come from extremely intense events. Over the years, LIGO has picked up some truly perplexing signals. For example, last summer it found the most colossal black hole merger ever—and if that wasn’t wild enough, the black holes that took part in the merger lie within a cosmic “dead zone” for black holes.
This zone refers to a range of black hole masses in which, physically speaking, black holes can’t form through ordinary stellar collapse. From these discoveries, astronomers realized just how little we knew about black holes, which are challenging to investigate directly. In that sense, it was a no-brainer that the ever-growing catalog of LIGO’s gravitational signals would turn up entirely new insights about black holes. “It is increasingly clear, both from individual events and population analyses, that massive black holes exist in [this] range,” the researchers wrote in the latest paper. “These observations have spurred further investigation into mechanisms that can populate this gap.”
A wobbly imprint The latest research represents one such investigation. During mergers, the two black holes spiral toward each other along an orbital plane. When one or both black hole spins are misaligned, the orbital plane can wobble, or “precess,” the researchers explained to MIT News. The degree to which the disk wobbles acts as a parameter from which researchers can measure the masses and spins of the merging black holes. One telling sign of hierarchical mergers is that they’re “lopsided,” meaning one of the pair has a much higher spin and mass than the other. For the study, the team created an analytic model to capture the kind of wobble that would have emerged from second-generation black holes. Around 14% of merging black holes followed this pattern, and the second-generation black holes identified had a very specific range of masses, at around 20 solar masses or 40 solar masses and above. Of mysterious origins To be fair, that might not sound like a whole lot. But it demonstrates that a sizeable portion of known black holes indeed follow this pattern. As for why, the team suspects hierarchical mergers emerge from dense stellar environments. Simply, when multiple neighboring stars die and collapse into black holes, the dense environment can make it easier for those black holes to find each other and merge. That could further lead to the formation of second-generation black holes. Theoretically, this could “repeat potentially ad infinitum, by virtue of the fact that you have a ton of stars and black holes in this really dense environment,” Plunkett said.
But an ensuing mystery concerns those black holes in the 40-and-above regime, which coincides with the aforementioned “death zones” for black hole masses. According to stellar evolution theory, black holes born of supernovas shouldn’t leave any black holes above roughly 45 solar masses, explained Plunkett. “Yet we have seen black holes that are that massive,” she mused. “And the question is: Where did they come from?” For now, it’s hard to say when we’ll get an answer to that question, if ever. But one thing seems to be clear: black holes are a lot weirder than we could ever imagine. #Scientists #Black #Holes #Born #Black #HolesBlack holes,Gravitational wave,LIGO Scientists Say Some Black Holes Are Born From Other Black Holes
Since LIGO’s Nobel-winning discovery of gravitational waves—ripples in spacetime—the U.S.-based detector has been picking up on hundreds of signals from black hole mergers. And, after a decade of studying gravitational waves, researchers believe a significant fraction of black holes may come from cosmic chain reactions. A recent paper published in Physical Review Letters describes an analysis of 155 pairs of binary black holes, identified by LIGO and its sisters, Virgo and KAGRA, in Italy and Japan, respectively. According to the study, about 14% of merging black holes may be what’s called “second-generation black holes,” or black holes that form from previous mergers of two smaller black holes. This “hierarchical” backstory is vastly different from the textbook version of how black holes emerge from the explosive death of a star. “Overall in the universe, black holes are merging all the time,” Cailin Plunkett, the study’s first author and a graduate student at the Massachusetts Institute of Technology, told MIT News. “Now we’re seeing a relatively consistent picture where there’s a decent percentage of black holes that are coming from this repeated pathway.”
Tracking the invisible Gravitational waves that reach Earth’s detectors typically come from extremely intense events. Over the years, LIGO has picked up some truly perplexing signals. For example, last summer it found the most colossal black hole merger ever—and if that wasn’t wild enough, the black holes that took part in the merger lie within a cosmic “dead zone” for black holes.
This zone refers to a range of black hole masses in which, physically speaking, black holes can’t form through ordinary stellar collapse. From these discoveries, astronomers realized just how little we knew about black holes, which are challenging to investigate directly. In that sense, it was a no-brainer that the ever-growing catalog of LIGO’s gravitational signals would turn up entirely new insights about black holes. “It is increasingly clear, both from individual events and population analyses, that massive black holes exist in [this] range,” the researchers wrote in the latest paper. “These observations have spurred further investigation into mechanisms that can populate this gap.”
A wobbly imprint The latest research represents one such investigation. During mergers, the two black holes spiral toward each other along an orbital plane. When one or both black hole spins are misaligned, the orbital plane can wobble, or “precess,” the researchers explained to MIT News. The degree to which the disk wobbles acts as a parameter from which researchers can measure the masses and spins of the merging black holes. One telling sign of hierarchical mergers is that they’re “lopsided,” meaning one of the pair has a much higher spin and mass than the other. For the study, the team created an analytic model to capture the kind of wobble that would have emerged from second-generation black holes. Around 14% of merging black holes followed this pattern, and the second-generation black holes identified had a very specific range of masses, at around 20 solar masses or 40 solar masses and above. Of mysterious origins To be fair, that might not sound like a whole lot. But it demonstrates that a sizeable portion of known black holes indeed follow this pattern. As for why, the team suspects hierarchical mergers emerge from dense stellar environments. Simply, when multiple neighboring stars die and collapse into black holes, the dense environment can make it easier for those black holes to find each other and merge. That could further lead to the formation of second-generation black holes. Theoretically, this could “repeat potentially ad infinitum, by virtue of the fact that you have a ton of stars and black holes in this really dense environment,” Plunkett said.
But an ensuing mystery concerns those black holes in the 40-and-above regime, which coincides with the aforementioned “death zones” for black hole masses. According to stellar evolution theory, black holes born of supernovas shouldn’t leave any black holes above roughly 45 solar masses, explained Plunkett. “Yet we have seen black holes that are that massive,” she mused. “And the question is: Where did they come from?” For now, it’s hard to say when we’ll get an answer to that question, if ever. But one thing seems to be clear: black holes are a lot weirder than we could ever imagine. #Scientists #Black #Holes #Born #Black #HolesBlack holes,Gravitational wave,LIGO](https://gizmodo.com/app/uploads/2026/07/black-hole-hierarchial-mergers-1280x853.jpg)
Post Comment