Project Zeus
Posted: Fri May 19, 2017 8:38 pm
Hello, all
I regret to inform you that uranium 234 is a nuclear explosive: https://www.bnl.gov/isd/documents/43872.pdf This is not the form I first saw these neutron cross sections, they were earlier ones and had absorption and fission lines printed on the same graph. Fission exceeds absorption in the range of 1 - 5 million electron volts (MeV). Nubar, the number of neutrons emitted per fission, ranges between 2.5 and 3 in the relevant energy range. You can compare uranium 234 with known nuclear explosives and prove it to yourselves.
When I first saw this I thought, "This stuff is a nuclear explosive! Shouldn't this be classified?" but I looked at the url and it said .gov. Then I read an article which specifically mentioned thorium 230 and they said that although cross sections for isotopes 235 and above were correct, those 234 and below were as much as 20% off. Given that the explosive nature of neptunium 237 and plutonium 238 were hidden until 2002, which way would you bet they're off? I thought "This too!?? Is this some kind of a joke?" Thorium is a different chemical element than uranium and has different properties, for example it dissolves in water in situations where uranium will not.
There are porous, insoluble uranium deposits where the uranium does not dissolve in water, one of these is the common sandstone carnotite. Water flows through it and thorium escapes. Uranium 234 escapes as thorium 234, half life 25 days. It then emits two electrons, two neutrinos, and two gamma rays and decays into uranium 234. Fortunately, one of the gamma rays is at 1.415 MeV, making this water easy to track.
The reason I came to SummitPost.org is "Guiness World Records 2011", page 32-33. They showed the awesome beauty of Antelope Canyon in Arizona, with an amazing wind-carved vortex. Antelope Canyon is a slot canyon where soft carnotite sandwiched between layers of tougher lava erodes. Though the carnotite does not dissolve in water, it is easily carved by wind and of course, water. The world record is to the Colorado Plateau, which has 10,000 slot canyons. This was researched by SummitPost.org and verified by the "Guiness Book of World Records" staff. If you can get six grams of uranium from each one, you would have enough to make an atomic bomb. Or it might be possible in an area with a lot of carnotite to get 60 kilograms; my estimate is that this is a critical mass.
Obviously, SummitPost.org has a large, worldwide database of slot canyons which the Government can use to intercept a nuclear attack before it even gets out of the ground. I urge you to turn this over to the IAEA. Also, there are other minerals in other deposits, so if you know where any of this material is located, notify the Sheriff of the county it's in and have him lock it down (Part of the "art" of Project Zeus, named after the Nike missile interceptor, is to figure out which cop to call. Hint: some of these Sheriffs don't know they're sitting on an atomic bomb, and they have a pressing need to know.)
Thank you in advance,
Michael C. Emmert
I regret to inform you that uranium 234 is a nuclear explosive: https://www.bnl.gov/isd/documents/43872.pdf This is not the form I first saw these neutron cross sections, they were earlier ones and had absorption and fission lines printed on the same graph. Fission exceeds absorption in the range of 1 - 5 million electron volts (MeV). Nubar, the number of neutrons emitted per fission, ranges between 2.5 and 3 in the relevant energy range. You can compare uranium 234 with known nuclear explosives and prove it to yourselves.
When I first saw this I thought, "This stuff is a nuclear explosive! Shouldn't this be classified?" but I looked at the url and it said .gov. Then I read an article which specifically mentioned thorium 230 and they said that although cross sections for isotopes 235 and above were correct, those 234 and below were as much as 20% off. Given that the explosive nature of neptunium 237 and plutonium 238 were hidden until 2002, which way would you bet they're off? I thought "This too!?? Is this some kind of a joke?" Thorium is a different chemical element than uranium and has different properties, for example it dissolves in water in situations where uranium will not.
There are porous, insoluble uranium deposits where the uranium does not dissolve in water, one of these is the common sandstone carnotite. Water flows through it and thorium escapes. Uranium 234 escapes as thorium 234, half life 25 days. It then emits two electrons, two neutrinos, and two gamma rays and decays into uranium 234. Fortunately, one of the gamma rays is at 1.415 MeV, making this water easy to track.
The reason I came to SummitPost.org is "Guiness World Records 2011", page 32-33. They showed the awesome beauty of Antelope Canyon in Arizona, with an amazing wind-carved vortex. Antelope Canyon is a slot canyon where soft carnotite sandwiched between layers of tougher lava erodes. Though the carnotite does not dissolve in water, it is easily carved by wind and of course, water. The world record is to the Colorado Plateau, which has 10,000 slot canyons. This was researched by SummitPost.org and verified by the "Guiness Book of World Records" staff. If you can get six grams of uranium from each one, you would have enough to make an atomic bomb. Or it might be possible in an area with a lot of carnotite to get 60 kilograms; my estimate is that this is a critical mass.
Obviously, SummitPost.org has a large, worldwide database of slot canyons which the Government can use to intercept a nuclear attack before it even gets out of the ground. I urge you to turn this over to the IAEA. Also, there are other minerals in other deposits, so if you know where any of this material is located, notify the Sheriff of the county it's in and have him lock it down (Part of the "art" of Project Zeus, named after the Nike missile interceptor, is to figure out which cop to call. Hint: some of these Sheriffs don't know they're sitting on an atomic bomb, and they have a pressing need to know.)
Thank you in advance,
Michael C. Emmert