How To Make A Nuclear Bomb In Minecraft Education Edition
Obtaining – Nuclear TNT (aka Atomic Bomb, Atomic TNT, or Nuke) can be crafted with 4 uranium blocks and 5 uranium ingots.
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How to make different types of TNT in Minecraft Education Edition?

Sodium + TNT, will create an alternate version of TNT which will damage blocks even when underwater. Latex x6 + colored dye + helium + a lead will produce a helium balloon. Balloons can be attached to fences, shot with arrows, and lift mobs into the air.
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Are you allowed to make a Nuke?

The Treaty on the Prohibition of Nuclear Weapons (TPNW) prohibits States Parties from developing, testing, producing, manufacturing, acquiring, possessing, or stockpiling nuclear weapons or other nuclear explosive devices.
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Can you make Cal’s lightsaber?

Customization – Cal’s lightsaber may be customized at a workbench-such as the one found at the rear of the Stinger Mantis – with parts found throughout the game.
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Is there super TNT in Minecraft?

Super TNT is an advanced version of TNT exclusive to Minecraft: Story Mode. It can be used to craft the Formidi-Bomb.
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What is the purple bomb in Minecraft?

The Formidi-Bomb is a purple variant of TNT emblazoned with a glowing letter ‘F.’ It appears to have a Command Block-esque design on the side.
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What is the powerful bomb in Minecraft?

Nuclear Bomb in:,

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Nuclear Bomb contains information about the mod.



Feature Result
Type Explosive
Transparency No
Luminance No
Blast Resistance 0 (will ignite)
Blast Radius 999999999999999999
Stackable? Yes (96)
Physics Only When Primed

Due to the strength of the bomb, it is strongly advised that caution is taken when handling it, as an explosion is likely to cause intense severe lag while blocks are removed, as well as remove nearly all life in the blast area. The Nuke’s explosion radius is second to that of a Nuclear Reactor exploding. Blowing yourself up with the nuke gives you the endgame achievement, “Crazy Ivan”.
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How to make TNT in real life?

Preparation – In industry, TNT is produced in a three-step process. First, toluene is nitrated with a mixture of sulfuric and nitric acid to produce mononitrotoluene (MNT). The MNT is separated and then renitrated to dinitrotoluene (DNT). In the final step, the DNT is nitrated to trinitrotoluene (TNT) using an anhydrous mixture of nitric acid and oleum,

  • Nitric acid is consumed by the manufacturing process, but the diluted sulfuric acid can be reconcentrated and reused.
  • After nitration, TNT is stabilized by a process called sulfitation, where the crude TNT is treated with aqueous sodium sulfite solution to remove less stable isomers of TNT and other undesired reaction products.

The rinse water from sulfitation is known as red water and is a significant pollutant and waste product of TNT manufacture. Control of nitrogen oxides in feed nitric acid is very important because free nitrogen dioxide can result in oxidation of the methyl group of toluene.

  1. This reaction is highly exothermic and carries with it the risk of a runaway reaction leading to an explosion.
  2. In the laboratory, 2,4,6-trinitrotoluene is produced by a two-step process.
  3. A nitrating mixture of concentrated nitric and sulfuric acids is used to nitrate toluene to a mixture of mono- and di-nitrotoluene isomers, with careful cooling to maintain temperature.

The nitrated toluenes are then separated, washed with dilute sodium bicarbonate to remove oxides of nitrogen, and then carefully nitrated with a mixture of fuming nitric acid and sulfuric acid.
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How do you start an atom bomb?

Fission and fusion – All matter is composed of atoms: incredibly small structures that house different combinations of three particles, known as protons, neutrons, and electrons. At the center of each atom is a “nucleus” (the plural of which is “nuclei”), where neutrons and protons are bound in close proximity together.

Most nuclei are relatively stable, meaning the makeup of their neutrons and protons is comparatively static and unchanging. During fission, the nuclei of certain heavy atoms split into smaller, lighter nuclei, releasing excess energy in the process. This can sometimes occur spontaneously, but can also, in certain nuclei, be induced from outside.

A neutron is shot at the nucleus and is absorbed, causing instability and fission. In some elements—such as certain isotopes of uranium and plutonium—the fission process also releases excess neutrons, which can trigger a chain reaction if they’re absorbed by nearby atoms.

Fusion works in reverse: when exposed to extremely high temperatures and pressures, some lightweight nuclei can fuse together to form heavier nuclei, releasing energy in the process. In modern nuclear weapons, which use both fission and fusion, a single warhead can release more explosive energy in a fraction of a second than all of the weapons used during World War II combined —including Fat Man and Little Boy, the two atom bombs dropped on Japan.

Each piece by itself was not enough to constitute a critical mass (the minimum amount of nuclear material needed to maintain fission)—but by colliding the pieces, critical mass was reached and a fission chain reaction occurred. Modern nuclear weapons work slightly differently.

Critical mass depends on the density of the material: as the density in creases, the critical mass de creases. Instead of colliding two sub-critical pieces of nuclear fuel, modern weapons detonate chemical explosives around a sub-critical sphere (or “pit”) of uranium-235 or plutonium-239 metal. The force from the blast is directed inward, compressing the pit and bringing its atoms closer together.

Once dense enough to reach the critical mass, neutrons are injected, initiating a fission chain reaction and producing an atomic explosion. In fusion weapons (also called “thermonuclear” or “hydrogen” weapons), the energy from an initial fission explosion is used to “fuse” hydrogen isotopes together.
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