How much damage would a cupful of neutron star matter do to the Earth?












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Suppose we used SCP-261, the vending machine that produces anything, and ask for a cup of neutron star. The machine instantaneously produces this.



Suppose also that the vending machine is located at a normal office building, not some underground lair or the like.



What effect would this have, and how much damage would it do? Would it kill everyone in the building? Destroy the Earth? Surprisingly very little effect?










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  • $begingroup$
    Where would this vending machine get all that matter, because if it already had that (or the energy equivalent) it would be a chunk of a neutron star itself ? People, as they say, would notice (very, very briefly, before they were wiped out by a globally catastrophic explosion).
    $endgroup$
    – StephenG
    46 mins ago
















2












$begingroup$


Suppose we used SCP-261, the vending machine that produces anything, and ask for a cup of neutron star. The machine instantaneously produces this.



Suppose also that the vending machine is located at a normal office building, not some underground lair or the like.



What effect would this have, and how much damage would it do? Would it kill everyone in the building? Destroy the Earth? Surprisingly very little effect?










share|improve this question









$endgroup$












  • $begingroup$
    Where would this vending machine get all that matter, because if it already had that (or the energy equivalent) it would be a chunk of a neutron star itself ? People, as they say, would notice (very, very briefly, before they were wiped out by a globally catastrophic explosion).
    $endgroup$
    – StephenG
    46 mins ago














2












2








2





$begingroup$


Suppose we used SCP-261, the vending machine that produces anything, and ask for a cup of neutron star. The machine instantaneously produces this.



Suppose also that the vending machine is located at a normal office building, not some underground lair or the like.



What effect would this have, and how much damage would it do? Would it kill everyone in the building? Destroy the Earth? Surprisingly very little effect?










share|improve this question









$endgroup$




Suppose we used SCP-261, the vending machine that produces anything, and ask for a cup of neutron star. The machine instantaneously produces this.



Suppose also that the vending machine is located at a normal office building, not some underground lair or the like.



What effect would this have, and how much damage would it do? Would it kill everyone in the building? Destroy the Earth? Surprisingly very little effect?







astrophysics






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asked 2 hours ago









Quadratic WizardQuadratic Wizard

1856




1856












  • $begingroup$
    Where would this vending machine get all that matter, because if it already had that (or the energy equivalent) it would be a chunk of a neutron star itself ? People, as they say, would notice (very, very briefly, before they were wiped out by a globally catastrophic explosion).
    $endgroup$
    – StephenG
    46 mins ago


















  • $begingroup$
    Where would this vending machine get all that matter, because if it already had that (or the energy equivalent) it would be a chunk of a neutron star itself ? People, as they say, would notice (very, very briefly, before they were wiped out by a globally catastrophic explosion).
    $endgroup$
    – StephenG
    46 mins ago
















$begingroup$
Where would this vending machine get all that matter, because if it already had that (or the energy equivalent) it would be a chunk of a neutron star itself ? People, as they say, would notice (very, very briefly, before they were wiped out by a globally catastrophic explosion).
$endgroup$
– StephenG
46 mins ago




$begingroup$
Where would this vending machine get all that matter, because if it already had that (or the energy equivalent) it would be a chunk of a neutron star itself ? People, as they say, would notice (very, very briefly, before they were wiped out by a globally catastrophic explosion).
$endgroup$
– StephenG
46 mins ago










4 Answers
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The answer isn't entirely clear what the final state of the Neutron Star matter would be, but it would most definitely completely destroy the "Totally Normal Office Building", and most of the country... and probably most life on Earth.



See this related question: https://physics.stackexchange.com/questions/10052/what-would-happen-to-a-teaspoon-of-neutron-star-material-if-released-on-earth






share|improve this answer









$endgroup$













  • $begingroup$
    +1, an answer to the linked question estimated energy release several orders of magnitude higher than Chicxulub impact (an that question was asking only about a teaspoon of "neutronium").
    $endgroup$
    – Alexander
    2 hours ago










  • $begingroup$
    "Destroy.. and probably most life on Earth" is such a comically conservative "probably" considering the link says the explosion is 3500 times bigger than the one that killed the dinosaurs. Throw in radiation? You're gonna feel this one on Pluto...
    $endgroup$
    – Muuski
    1 hour ago










  • $begingroup$
    Be fair, @Muuski - you're not going to feel it on Pluto. There are ~50 teaspoons in a cup, so it'd just be 7.5 x 10^27 J, or the emissions of the sun for about 20 seconds released over a shorter timescale. Depending on Earth's position relative to Pluto in the solar system, it might not even be detectable.
    $endgroup$
    – jdunlop
    1 hour ago










  • $begingroup$
    That said, there definitely won't be much left of Earth.
    $endgroup$
    – jdunlop
    1 hour ago










  • $begingroup$
    @jdunlop that's still much less that Theia impact, so Earth as a planet would survive.
    $endgroup$
    – Alexander
    1 hour ago



















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$begingroup$

If you google for "dendity of neutron star in kg/cm3, you get an example of one that reaches 7 x 1014 grams per cc. A 200ml cup would have 1.4 x 1014 kilograms of mass.



Let me rephrase without exponentiation. It would weight 140,000,000,000,000 kilograms.



For comparison, the mass of the Earth is close to 6 x 1024 kg. That is 10 billions more massive than your cup, but at a density that is closer to 5.5 grams per cc.



Anyway, back to the office. The cup will fall from the machine and rip a hole as it sinks to the core of the Earth, displacing crust and exposing a bit of mantle in the way. The people and things closer to it will be torn apart and pulled along it due to its gravity - it may be a tenth of a billion as massive as the Earth but you are 6,400 km closer to it.



Throughout the Earth, powerful tectonic shockwaves cross the planet a couple or more times. The Planet will wobble a bit as the center of gravity readjusts. Earth will be slightly more massive, so its gravity will be stronger - but not enough for us to perceive.



The only lasting effect noticeable by us is that the orbital period of the Moon will be shortened by a few hours. Oh, and the mega crater at wherever it happened.






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    $begingroup$

    I don't have the full answer you're looking for - exactly how much damage will be done - but that is definitely going to explode, very spectacularly. And the vapour that used to be your coffee cup will be radioactive.



    You suddenly have more stuff in your cup than should reasonably exist in your whole building. The pressure will, eventually, equalise. There will be a shockwave while that works itself out.



    Free neutrons will not exist for more than a few minutes at Earth pressure. They would decay, releasing a lot of energy. Unless they collide with an atom first, which will tend to make the atom unstable (ie radioactive). There are more free neutrons in that cup than there are atoms in your office, so this isn't going to be pleasant.






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      According to the answers to the Physics question linked by abestrange this would result in the Earth being hit by 250 million tonnes of neutrons travelling at .1c+. I feel confident this would turn everything above horizon radioactive including significant portion of the ground beneath. Neutron scattering would extend this beyond the horizon too.



      Bulk of the energy would then transform into heat creating a huge fire storm that lifts much of the irradiated material into stratosphere. Gravity will then bring it down "somewhere". Normally you'd have to start thinking about wind patterns and the amount of debris but in this case I think we can just assume the entire surface of the Earth comes covered by radioactive crap.



      Which is a good thing because once it is down it is no longer stopping sunlight.



      Just noticed that the amount in this question is much larger than the one in the physics question but frankly it doesn't really matter, does it? Only real change is that the extra energy removes all need you might have had to worry about the fallout coverage.



      So "everybody dies"? Although people who still have nuclear fallout shelters and are far enough will have time to take cover. Not sure how survivable that actually is. I think they were mostly intended to protect people when the city they are in gets blasted not to support populations when the entire surface is irradiated.





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        4 Answers
        4






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        4 Answers
        4






        active

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        active

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        $begingroup$

        The answer isn't entirely clear what the final state of the Neutron Star matter would be, but it would most definitely completely destroy the "Totally Normal Office Building", and most of the country... and probably most life on Earth.



        See this related question: https://physics.stackexchange.com/questions/10052/what-would-happen-to-a-teaspoon-of-neutron-star-material-if-released-on-earth






        share|improve this answer









        $endgroup$













        • $begingroup$
          +1, an answer to the linked question estimated energy release several orders of magnitude higher than Chicxulub impact (an that question was asking only about a teaspoon of "neutronium").
          $endgroup$
          – Alexander
          2 hours ago










        • $begingroup$
          "Destroy.. and probably most life on Earth" is such a comically conservative "probably" considering the link says the explosion is 3500 times bigger than the one that killed the dinosaurs. Throw in radiation? You're gonna feel this one on Pluto...
          $endgroup$
          – Muuski
          1 hour ago










        • $begingroup$
          Be fair, @Muuski - you're not going to feel it on Pluto. There are ~50 teaspoons in a cup, so it'd just be 7.5 x 10^27 J, or the emissions of the sun for about 20 seconds released over a shorter timescale. Depending on Earth's position relative to Pluto in the solar system, it might not even be detectable.
          $endgroup$
          – jdunlop
          1 hour ago










        • $begingroup$
          That said, there definitely won't be much left of Earth.
          $endgroup$
          – jdunlop
          1 hour ago










        • $begingroup$
          @jdunlop that's still much less that Theia impact, so Earth as a planet would survive.
          $endgroup$
          – Alexander
          1 hour ago
















        5












        $begingroup$

        The answer isn't entirely clear what the final state of the Neutron Star matter would be, but it would most definitely completely destroy the "Totally Normal Office Building", and most of the country... and probably most life on Earth.



        See this related question: https://physics.stackexchange.com/questions/10052/what-would-happen-to-a-teaspoon-of-neutron-star-material-if-released-on-earth






        share|improve this answer









        $endgroup$













        • $begingroup$
          +1, an answer to the linked question estimated energy release several orders of magnitude higher than Chicxulub impact (an that question was asking only about a teaspoon of "neutronium").
          $endgroup$
          – Alexander
          2 hours ago










        • $begingroup$
          "Destroy.. and probably most life on Earth" is such a comically conservative "probably" considering the link says the explosion is 3500 times bigger than the one that killed the dinosaurs. Throw in radiation? You're gonna feel this one on Pluto...
          $endgroup$
          – Muuski
          1 hour ago










        • $begingroup$
          Be fair, @Muuski - you're not going to feel it on Pluto. There are ~50 teaspoons in a cup, so it'd just be 7.5 x 10^27 J, or the emissions of the sun for about 20 seconds released over a shorter timescale. Depending on Earth's position relative to Pluto in the solar system, it might not even be detectable.
          $endgroup$
          – jdunlop
          1 hour ago










        • $begingroup$
          That said, there definitely won't be much left of Earth.
          $endgroup$
          – jdunlop
          1 hour ago










        • $begingroup$
          @jdunlop that's still much less that Theia impact, so Earth as a planet would survive.
          $endgroup$
          – Alexander
          1 hour ago














        5












        5








        5





        $begingroup$

        The answer isn't entirely clear what the final state of the Neutron Star matter would be, but it would most definitely completely destroy the "Totally Normal Office Building", and most of the country... and probably most life on Earth.



        See this related question: https://physics.stackexchange.com/questions/10052/what-would-happen-to-a-teaspoon-of-neutron-star-material-if-released-on-earth






        share|improve this answer









        $endgroup$



        The answer isn't entirely clear what the final state of the Neutron Star matter would be, but it would most definitely completely destroy the "Totally Normal Office Building", and most of the country... and probably most life on Earth.



        See this related question: https://physics.stackexchange.com/questions/10052/what-would-happen-to-a-teaspoon-of-neutron-star-material-if-released-on-earth







        share|improve this answer












        share|improve this answer



        share|improve this answer










        answered 2 hours ago









        abestrangeabestrange

        1,7921312




        1,7921312












        • $begingroup$
          +1, an answer to the linked question estimated energy release several orders of magnitude higher than Chicxulub impact (an that question was asking only about a teaspoon of "neutronium").
          $endgroup$
          – Alexander
          2 hours ago










        • $begingroup$
          "Destroy.. and probably most life on Earth" is such a comically conservative "probably" considering the link says the explosion is 3500 times bigger than the one that killed the dinosaurs. Throw in radiation? You're gonna feel this one on Pluto...
          $endgroup$
          – Muuski
          1 hour ago










        • $begingroup$
          Be fair, @Muuski - you're not going to feel it on Pluto. There are ~50 teaspoons in a cup, so it'd just be 7.5 x 10^27 J, or the emissions of the sun for about 20 seconds released over a shorter timescale. Depending on Earth's position relative to Pluto in the solar system, it might not even be detectable.
          $endgroup$
          – jdunlop
          1 hour ago










        • $begingroup$
          That said, there definitely won't be much left of Earth.
          $endgroup$
          – jdunlop
          1 hour ago










        • $begingroup$
          @jdunlop that's still much less that Theia impact, so Earth as a planet would survive.
          $endgroup$
          – Alexander
          1 hour ago


















        • $begingroup$
          +1, an answer to the linked question estimated energy release several orders of magnitude higher than Chicxulub impact (an that question was asking only about a teaspoon of "neutronium").
          $endgroup$
          – Alexander
          2 hours ago










        • $begingroup$
          "Destroy.. and probably most life on Earth" is such a comically conservative "probably" considering the link says the explosion is 3500 times bigger than the one that killed the dinosaurs. Throw in radiation? You're gonna feel this one on Pluto...
          $endgroup$
          – Muuski
          1 hour ago










        • $begingroup$
          Be fair, @Muuski - you're not going to feel it on Pluto. There are ~50 teaspoons in a cup, so it'd just be 7.5 x 10^27 J, or the emissions of the sun for about 20 seconds released over a shorter timescale. Depending on Earth's position relative to Pluto in the solar system, it might not even be detectable.
          $endgroup$
          – jdunlop
          1 hour ago










        • $begingroup$
          That said, there definitely won't be much left of Earth.
          $endgroup$
          – jdunlop
          1 hour ago










        • $begingroup$
          @jdunlop that's still much less that Theia impact, so Earth as a planet would survive.
          $endgroup$
          – Alexander
          1 hour ago
















        $begingroup$
        +1, an answer to the linked question estimated energy release several orders of magnitude higher than Chicxulub impact (an that question was asking only about a teaspoon of "neutronium").
        $endgroup$
        – Alexander
        2 hours ago




        $begingroup$
        +1, an answer to the linked question estimated energy release several orders of magnitude higher than Chicxulub impact (an that question was asking only about a teaspoon of "neutronium").
        $endgroup$
        – Alexander
        2 hours ago












        $begingroup$
        "Destroy.. and probably most life on Earth" is such a comically conservative "probably" considering the link says the explosion is 3500 times bigger than the one that killed the dinosaurs. Throw in radiation? You're gonna feel this one on Pluto...
        $endgroup$
        – Muuski
        1 hour ago




        $begingroup$
        "Destroy.. and probably most life on Earth" is such a comically conservative "probably" considering the link says the explosion is 3500 times bigger than the one that killed the dinosaurs. Throw in radiation? You're gonna feel this one on Pluto...
        $endgroup$
        – Muuski
        1 hour ago












        $begingroup$
        Be fair, @Muuski - you're not going to feel it on Pluto. There are ~50 teaspoons in a cup, so it'd just be 7.5 x 10^27 J, or the emissions of the sun for about 20 seconds released over a shorter timescale. Depending on Earth's position relative to Pluto in the solar system, it might not even be detectable.
        $endgroup$
        – jdunlop
        1 hour ago




        $begingroup$
        Be fair, @Muuski - you're not going to feel it on Pluto. There are ~50 teaspoons in a cup, so it'd just be 7.5 x 10^27 J, or the emissions of the sun for about 20 seconds released over a shorter timescale. Depending on Earth's position relative to Pluto in the solar system, it might not even be detectable.
        $endgroup$
        – jdunlop
        1 hour ago












        $begingroup$
        That said, there definitely won't be much left of Earth.
        $endgroup$
        – jdunlop
        1 hour ago




        $begingroup$
        That said, there definitely won't be much left of Earth.
        $endgroup$
        – jdunlop
        1 hour ago












        $begingroup$
        @jdunlop that's still much less that Theia impact, so Earth as a planet would survive.
        $endgroup$
        – Alexander
        1 hour ago




        $begingroup$
        @jdunlop that's still much less that Theia impact, so Earth as a planet would survive.
        $endgroup$
        – Alexander
        1 hour ago











        2












        $begingroup$

        If you google for "dendity of neutron star in kg/cm3, you get an example of one that reaches 7 x 1014 grams per cc. A 200ml cup would have 1.4 x 1014 kilograms of mass.



        Let me rephrase without exponentiation. It would weight 140,000,000,000,000 kilograms.



        For comparison, the mass of the Earth is close to 6 x 1024 kg. That is 10 billions more massive than your cup, but at a density that is closer to 5.5 grams per cc.



        Anyway, back to the office. The cup will fall from the machine and rip a hole as it sinks to the core of the Earth, displacing crust and exposing a bit of mantle in the way. The people and things closer to it will be torn apart and pulled along it due to its gravity - it may be a tenth of a billion as massive as the Earth but you are 6,400 km closer to it.



        Throughout the Earth, powerful tectonic shockwaves cross the planet a couple or more times. The Planet will wobble a bit as the center of gravity readjusts. Earth will be slightly more massive, so its gravity will be stronger - but not enough for us to perceive.



        The only lasting effect noticeable by us is that the orbital period of the Moon will be shortened by a few hours. Oh, and the mega crater at wherever it happened.






        share|improve this answer









        $endgroup$


















          2












          $begingroup$

          If you google for "dendity of neutron star in kg/cm3, you get an example of one that reaches 7 x 1014 grams per cc. A 200ml cup would have 1.4 x 1014 kilograms of mass.



          Let me rephrase without exponentiation. It would weight 140,000,000,000,000 kilograms.



          For comparison, the mass of the Earth is close to 6 x 1024 kg. That is 10 billions more massive than your cup, but at a density that is closer to 5.5 grams per cc.



          Anyway, back to the office. The cup will fall from the machine and rip a hole as it sinks to the core of the Earth, displacing crust and exposing a bit of mantle in the way. The people and things closer to it will be torn apart and pulled along it due to its gravity - it may be a tenth of a billion as massive as the Earth but you are 6,400 km closer to it.



          Throughout the Earth, powerful tectonic shockwaves cross the planet a couple or more times. The Planet will wobble a bit as the center of gravity readjusts. Earth will be slightly more massive, so its gravity will be stronger - but not enough for us to perceive.



          The only lasting effect noticeable by us is that the orbital period of the Moon will be shortened by a few hours. Oh, and the mega crater at wherever it happened.






          share|improve this answer









          $endgroup$
















            2












            2








            2





            $begingroup$

            If you google for "dendity of neutron star in kg/cm3, you get an example of one that reaches 7 x 1014 grams per cc. A 200ml cup would have 1.4 x 1014 kilograms of mass.



            Let me rephrase without exponentiation. It would weight 140,000,000,000,000 kilograms.



            For comparison, the mass of the Earth is close to 6 x 1024 kg. That is 10 billions more massive than your cup, but at a density that is closer to 5.5 grams per cc.



            Anyway, back to the office. The cup will fall from the machine and rip a hole as it sinks to the core of the Earth, displacing crust and exposing a bit of mantle in the way. The people and things closer to it will be torn apart and pulled along it due to its gravity - it may be a tenth of a billion as massive as the Earth but you are 6,400 km closer to it.



            Throughout the Earth, powerful tectonic shockwaves cross the planet a couple or more times. The Planet will wobble a bit as the center of gravity readjusts. Earth will be slightly more massive, so its gravity will be stronger - but not enough for us to perceive.



            The only lasting effect noticeable by us is that the orbital period of the Moon will be shortened by a few hours. Oh, and the mega crater at wherever it happened.






            share|improve this answer









            $endgroup$



            If you google for "dendity of neutron star in kg/cm3, you get an example of one that reaches 7 x 1014 grams per cc. A 200ml cup would have 1.4 x 1014 kilograms of mass.



            Let me rephrase without exponentiation. It would weight 140,000,000,000,000 kilograms.



            For comparison, the mass of the Earth is close to 6 x 1024 kg. That is 10 billions more massive than your cup, but at a density that is closer to 5.5 grams per cc.



            Anyway, back to the office. The cup will fall from the machine and rip a hole as it sinks to the core of the Earth, displacing crust and exposing a bit of mantle in the way. The people and things closer to it will be torn apart and pulled along it due to its gravity - it may be a tenth of a billion as massive as the Earth but you are 6,400 km closer to it.



            Throughout the Earth, powerful tectonic shockwaves cross the planet a couple or more times. The Planet will wobble a bit as the center of gravity readjusts. Earth will be slightly more massive, so its gravity will be stronger - but not enough for us to perceive.



            The only lasting effect noticeable by us is that the orbital period of the Moon will be shortened by a few hours. Oh, and the mega crater at wherever it happened.







            share|improve this answer












            share|improve this answer



            share|improve this answer










            answered 1 hour ago









            RenanRenan

            53.7k15122267




            53.7k15122267























                0












                $begingroup$

                I don't have the full answer you're looking for - exactly how much damage will be done - but that is definitely going to explode, very spectacularly. And the vapour that used to be your coffee cup will be radioactive.



                You suddenly have more stuff in your cup than should reasonably exist in your whole building. The pressure will, eventually, equalise. There will be a shockwave while that works itself out.



                Free neutrons will not exist for more than a few minutes at Earth pressure. They would decay, releasing a lot of energy. Unless they collide with an atom first, which will tend to make the atom unstable (ie radioactive). There are more free neutrons in that cup than there are atoms in your office, so this isn't going to be pleasant.






                share|improve this answer









                $endgroup$


















                  0












                  $begingroup$

                  I don't have the full answer you're looking for - exactly how much damage will be done - but that is definitely going to explode, very spectacularly. And the vapour that used to be your coffee cup will be radioactive.



                  You suddenly have more stuff in your cup than should reasonably exist in your whole building. The pressure will, eventually, equalise. There will be a shockwave while that works itself out.



                  Free neutrons will not exist for more than a few minutes at Earth pressure. They would decay, releasing a lot of energy. Unless they collide with an atom first, which will tend to make the atom unstable (ie radioactive). There are more free neutrons in that cup than there are atoms in your office, so this isn't going to be pleasant.






                  share|improve this answer









                  $endgroup$
















                    0












                    0








                    0





                    $begingroup$

                    I don't have the full answer you're looking for - exactly how much damage will be done - but that is definitely going to explode, very spectacularly. And the vapour that used to be your coffee cup will be radioactive.



                    You suddenly have more stuff in your cup than should reasonably exist in your whole building. The pressure will, eventually, equalise. There will be a shockwave while that works itself out.



                    Free neutrons will not exist for more than a few minutes at Earth pressure. They would decay, releasing a lot of energy. Unless they collide with an atom first, which will tend to make the atom unstable (ie radioactive). There are more free neutrons in that cup than there are atoms in your office, so this isn't going to be pleasant.






                    share|improve this answer









                    $endgroup$



                    I don't have the full answer you're looking for - exactly how much damage will be done - but that is definitely going to explode, very spectacularly. And the vapour that used to be your coffee cup will be radioactive.



                    You suddenly have more stuff in your cup than should reasonably exist in your whole building. The pressure will, eventually, equalise. There will be a shockwave while that works itself out.



                    Free neutrons will not exist for more than a few minutes at Earth pressure. They would decay, releasing a lot of energy. Unless they collide with an atom first, which will tend to make the atom unstable (ie radioactive). There are more free neutrons in that cup than there are atoms in your office, so this isn't going to be pleasant.







                    share|improve this answer












                    share|improve this answer



                    share|improve this answer










                    answered 2 hours ago









                    RobynRobyn

                    98436




                    98436























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                        $begingroup$

                        According to the answers to the Physics question linked by abestrange this would result in the Earth being hit by 250 million tonnes of neutrons travelling at .1c+. I feel confident this would turn everything above horizon radioactive including significant portion of the ground beneath. Neutron scattering would extend this beyond the horizon too.



                        Bulk of the energy would then transform into heat creating a huge fire storm that lifts much of the irradiated material into stratosphere. Gravity will then bring it down "somewhere". Normally you'd have to start thinking about wind patterns and the amount of debris but in this case I think we can just assume the entire surface of the Earth comes covered by radioactive crap.



                        Which is a good thing because once it is down it is no longer stopping sunlight.



                        Just noticed that the amount in this question is much larger than the one in the physics question but frankly it doesn't really matter, does it? Only real change is that the extra energy removes all need you might have had to worry about the fallout coverage.



                        So "everybody dies"? Although people who still have nuclear fallout shelters and are far enough will have time to take cover. Not sure how survivable that actually is. I think they were mostly intended to protect people when the city they are in gets blasted not to support populations when the entire surface is irradiated.





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                          $begingroup$

                          According to the answers to the Physics question linked by abestrange this would result in the Earth being hit by 250 million tonnes of neutrons travelling at .1c+. I feel confident this would turn everything above horizon radioactive including significant portion of the ground beneath. Neutron scattering would extend this beyond the horizon too.



                          Bulk of the energy would then transform into heat creating a huge fire storm that lifts much of the irradiated material into stratosphere. Gravity will then bring it down "somewhere". Normally you'd have to start thinking about wind patterns and the amount of debris but in this case I think we can just assume the entire surface of the Earth comes covered by radioactive crap.



                          Which is a good thing because once it is down it is no longer stopping sunlight.



                          Just noticed that the amount in this question is much larger than the one in the physics question but frankly it doesn't really matter, does it? Only real change is that the extra energy removes all need you might have had to worry about the fallout coverage.



                          So "everybody dies"? Although people who still have nuclear fallout shelters and are far enough will have time to take cover. Not sure how survivable that actually is. I think they were mostly intended to protect people when the city they are in gets blasted not to support populations when the entire surface is irradiated.





                          share









                          $endgroup$
















                            0












                            0








                            0





                            $begingroup$

                            According to the answers to the Physics question linked by abestrange this would result in the Earth being hit by 250 million tonnes of neutrons travelling at .1c+. I feel confident this would turn everything above horizon radioactive including significant portion of the ground beneath. Neutron scattering would extend this beyond the horizon too.



                            Bulk of the energy would then transform into heat creating a huge fire storm that lifts much of the irradiated material into stratosphere. Gravity will then bring it down "somewhere". Normally you'd have to start thinking about wind patterns and the amount of debris but in this case I think we can just assume the entire surface of the Earth comes covered by radioactive crap.



                            Which is a good thing because once it is down it is no longer stopping sunlight.



                            Just noticed that the amount in this question is much larger than the one in the physics question but frankly it doesn't really matter, does it? Only real change is that the extra energy removes all need you might have had to worry about the fallout coverage.



                            So "everybody dies"? Although people who still have nuclear fallout shelters and are far enough will have time to take cover. Not sure how survivable that actually is. I think they were mostly intended to protect people when the city they are in gets blasted not to support populations when the entire surface is irradiated.





                            share









                            $endgroup$



                            According to the answers to the Physics question linked by abestrange this would result in the Earth being hit by 250 million tonnes of neutrons travelling at .1c+. I feel confident this would turn everything above horizon radioactive including significant portion of the ground beneath. Neutron scattering would extend this beyond the horizon too.



                            Bulk of the energy would then transform into heat creating a huge fire storm that lifts much of the irradiated material into stratosphere. Gravity will then bring it down "somewhere". Normally you'd have to start thinking about wind patterns and the amount of debris but in this case I think we can just assume the entire surface of the Earth comes covered by radioactive crap.



                            Which is a good thing because once it is down it is no longer stopping sunlight.



                            Just noticed that the amount in this question is much larger than the one in the physics question but frankly it doesn't really matter, does it? Only real change is that the extra energy removes all need you might have had to worry about the fallout coverage.



                            So "everybody dies"? Although people who still have nuclear fallout shelters and are far enough will have time to take cover. Not sure how survivable that actually is. I think they were mostly intended to protect people when the city they are in gets blasted not to support populations when the entire surface is irradiated.






                            share











                            share


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                            answered 7 mins ago









                            Ville NiemiVille Niemi

                            35.6k260121




                            35.6k260121






























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