/sci/ - Science & Math

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Making fission part of bomb.
Step 1. Get thorium from the best natural resources around or buy it from a chemical supply store.

Step 2. If using natural thorium(meaning you dug it up somewhere). Separate its isotopes from the non-thorium isotopes... (Basicly you heat it to a vapor and use magnetic or laser seperation). There are other ways to seperate it.

Step 3. Make descision. Can enrich thorium to uranium-233 or use fusion-fission device . If enriching it you will only need conventional explosives to set it off.

Step 4. Make decision - Can buy lithium-6-deterium hydride compound from a chemical supply house instead of making it. If making it follow directions below.

Step 5. Get water from sink. Make hydrogen from it with electrolysis. Distill this hydrogen to deuterium.

Step 6. Make decision. Can distill tritium from hydrogen or make it with focus fusion reactor.

Step 7. If using focus fusion reactor choice can make lithium-6 or tritium directly. With direct tritium no sparkplug will be needed in nuclear device.

Step 8. Can make lithium, tritium, deuterium, thorium, uranium-233 into a compound powder if want.

Step 9 From above decisions construct nuclear device. if using natural thorium construct fusion-fission device. Will need to decide what to use for a spark plug. Plain liquid or solid hydrogen might be ok. If using lithium6-deuterium construct fusion device but we will not need plasma because the fission device will set it off but we will still need a sparkplug.. If using uranium-233 only need explosives to set it off. If using tritium-deuterium just put it beside the fission device it will go off on its own when the fission device explodes. No sparkplug will be needed with tritium-deterium device just a fission device.

why are you trying to make an atomic bomb?

Thanks for this. Now I have the means to realize my dreams.

>>3882222
Not that guy, but why wouldn't you make an atomic bomb?

Your personal, hand-made nuke is the ultimate expression of personal freedom, unchecked by the evils of government.

Now I can dominate the world! *evil laughter*

deserves a bump!

Creating a supercritical nuclear reaction (i.e. nuclear bomb) requires so much precise control of material purity and explosives engineering that there's really zero chance of the home bomb maker achieving it.

However, as long as a real machine shop is involved in making the parts, there's a danger of home assembly of the bomb. But which machine shop is willing to machine highly radioactive uranium or plutonium? Whoever did that would be signing their own death warrant.

Construction Project: Atomic Bomb

I. INTRODUCTION

Worldwide controversy has been generated recently by several United States government websites removing, or restricting access to, material regarding technical aspects of nuclear weapons; specifically, how to make an atomic bomb. The reason usually given by the Administration is that National Security would be compromised if such information were generally available. But, since it is commonly known that all of the information is publicly available in most major metropolitan libraries, obviously the Administration's officially stated position is covering up a more important factor; namely, that such atomic devices would prove too difficult for the average citizen to construct. The United States government cannot afford to insult the vast majorities by insinuating that they do not have the intelligence of a cabbage, and thus the "official" press releases claim National Security as a blanket restriction.

The rumors that have unfortunately occurred as a result of widespread misinformation can (and must) be cleared up now, for the construction project this month is the construction of a nuclear device, which will hopefully clear up any misconceptions you might have about such a project. We will see how easy it is to make a device of your very own in ten easy steps, to have and hold as you see fit, without annoying interference from the government or the courts.

The project will cost between $5,000 and $30,000 dollars, depending on how fancy you want the final product to be. Since last week's column, "Let's Make a Time Machine", was received so well in the new step-by-step format, this month's column will follow the same format.

II. CONSTRUCTION METHOD

1. First, obtain about 25 pounds (~10 kg) of Plutonium239 at your local supplier (see NOTES 1 & 2). A nuclear power plant is not recommended, as you'll have to extract and separate it from spent fuel rods, and it's a messy job. Besides, large quantities of missing Plutonium tends to make plant engineers unhappy. We suggest that you contact one of the former Soviet Republics, or perhaps the Junior Achievement in your neighborhood.

The sheet metal and the completed enclosure. A small rolling toolbox was chosen for the design, because of the ease of transport. Note the various stickers, which add believability to the disguise.

2. Fashion together a metal enclosure to house the device. Most common varieties of sheet metal can be bent to disguise this enclosure as, for example; a briefcase, a lunch pail, or a Buick. Do not use tinfoil or gum wrappers.

3. Arrange the Plutonium into two hemispherical shapes, separated by about 4 cm. Use rubber cement to hold the Plutonium dust together.

4. Now get about 100 pounds (44 kg) of trinitrotoluene (TNT). Gelignite is much better, but messier to work with. Your helpful hardware man or local Bomb Depot store will be happy to provide you with this item.

5. Pack the explosives around the hemisphere arrangement constructed in step 4. If you cannot find Gelignite, feel free to use TNT packed in with Play-doh or any modeling clay. Colored clay is acceptable, but there is no need to get fancy at this point.

6. Wrap this entire structure very tightly with duct tape. Use a whole roll. This shall be the neutron reflector and inertial containment.

7. Insert the assembly from step 6 into the enclosure made in step 2. Use a strong glue such as "Crazy Glue" to bind the hemisphere arrangement against the enclosure to prevent accidental detonation which might result from vibration or mishandling.

8. To fabricate a detonator for the device, obtain a radio controlled (RC) servo mechanism, as found in RC model airplanes and cars. With a modicum of effort, a remote plunger can be made that will strike a detonator cap to effect a small explosion. These detonation caps can be found in the electrical supply section of your local supermarket. We recommend the "Blast-O-Mactic" brand because they are no deposit-no return.

9. Now hide the completed device from the neighbors and children. The garage is not recommended because of high humidity and the extreme range of temperatures experienced there. Nuclear materials corrode easily, and devices have been known to spontaneously detonate in these unstable conditions. The hall closet or under the sofa will be perfectly suitable.

10. Now you are the proud owner of a working nuclear device! It is a great ice-breaker at parties; is nice to cozy around on a cold night; and in a pinch, can be used for National Defense.

III. THEORY OF OPERATION

Oversimplified, the device basically works when the detonated TNT compresses the Plutonium into a critical mass (smaller sphere). The critical mass then produces a nuclear chain reaction similar to the domino chain reaction (discussed in this column, "Dominos on the March", February). The chain reaction happens really, really fast, which promptly produces a big explosion. And there you have it, a 10 kiloton party favor!

IV. NOTES

1. Plutonium (PU), atomic number 94, is a radioactive metallic element formed by the decay of Neptunium and is similar in chemical structure to Uranium, Saturnium, Jupiternium, and Marsium. Not to be confused with Unobtanium or Balonium.

2. Please remember that Plutonium, especially pure, refined Plutonium, is somewhat dangerous. The shavings and dust have a nasty habit of igniting spontaneously, and are practically impossible to extinguish with materials found around the house.

Wash your hands with soap and warm water after handling the material, and don't allow your children or pets to play in it or eat it. Any leftover Plutonium dust is excellent as an insect repellant. You may wish to keep the substance in a lead box if you can find one in your local junk yard, but an old coffee can will do nicely.

V. NEXT MONTH'S COLUMN

In next month's column, we will learn how to clone your neighbor's wife in six easy steps. This project promises to be an exciting weekend full of fun and profit. Common kitchen utensils will be all you need. See you next month!

VI. PREVIOUS MONTH'S COLUMNS

1. Let's Make Test Tube Babies! May

2. Let's Make a Solar System! June

3. Let's Make an Economic Recession! July

4. Let's Make an Anti-Gravity Machine! August

5. Let's Make Contact with an Alien Race! September

there is a case in Sweden there a 26year old guy built a nuclear reactor in his kitchen..

its true, and that guy didnt even finnish school cuzz he felt he got brainwashed with politicaly correctness..

im just saying..

Can I borrow 500 gallons of deuterium off of someone?

I heard somebody was selling some kilos of Plutonium on ebay.

>>3884229
>built a nuclear reactor in his kitchen

OH SHIT
WHAT THE FUCK

SOURCE PLOX

>>3884245
Thats not so special, he was the 38th person to do it.

This guy is a bit sick.

http://en.wikipedia.org/wiki/David_Hahn

David Hahn's early years were seemingly ordinary. The blond, gangly boy played baseball and soccer, and joined the Boy Scouts. His parents, Ken and Patty, had divorced, and David lived with his father and stepmother, Kathy, in nearby Clinton Township. He spent weekends in Golf Manor with his mother and her boyfriend, Michael Polasek.

An abrupt change came at age ten, when Kathy's father gave David The Golden Book of Chemistry Experiments. David became immersed. By age 12 he had digested his father's college chemistry textbooks; by 14 he had made nitroglycerin.

One night his house in Clinton Township was rocked by an explosion in the basement. Ken and Kathy found David semiconscious on the floor. He had been pounding some substance with a screwdriver and ignited it. He was rushed to the hospital to have his eyes flushed.

Kathy then forbade David from experimenting in her home. So he shifted his operations to his mother's shed in Golf Manor. Neither Patty nor Michael had any idea what the shy teenager was up to, although they thought it was odd that David often wore a mask in the shed, and would sometimes discard his clothing after working there until two in the morning. They chalked it up to their own limited education.

Michael does, however, remember David saying, "One of these days we're gonna run out of oil."

Convinced he needed discipline, David's father, Ken, felt the solution lay in a goal that he didn't himself achieve, Eagle Scout, which requires 21 merit badges. David earned a merit badge in Atomic Energy in May 1991, five months shy of his 15th birthday. By now, though, he had grander ambitions.