Bombs/Explosives/Experiments Vinegar: 3-5% Acetic Acid Sani-Flush: 75% Bisulfate Tincture of Iodine: 47% Alcohol, 4% Iodine Rubbing Alcohol: 70% or 99% Isopropyl alcohol [*-> Household Substitutes <*-] Chemical Name Household Substitute Acacia Gum Arabic Acetic Acid Vinegar Aluminum Oxide Alumia Aluminum Potassium Sulfate Alum Aluminum Sulfate Alum Ammonium Carbonate Hartshorn Ammonium Hydroxide Ammonia Water Ammonium Nitrate Saltpeter Ammonium Oleate Bannana Oil Barium Sulfide Black Ash Carbon Carbonate Chalk Calcium Hypochloride Bleaching Powder Calcium Oxide Lime Calcium Sulphate Plaster of Paris Carbonic Acid Seltzer Carbon Tetrachloride Cleaning Fluid Cetyltrimethylammonium Bromide Ammonium Salt Citric Acid Citrus Fruits Ethylene Dichloride Dutch Fluid Ferric Oxide Iron Rust Furfuraldehyde Bran Oil Glucose Corn Syrup Graphite Pencil Tip Hydrochloric Acid Muriatic Acid Hydrogen Peroxide Peroxide Lead Acetate Sugar of Lead Lead Tetro-oxide Red Lead Magnesium Hydroxide Milk of Magnesia Magnesium Silicate Talc Magnesium Sulfate Epsom Salts Methyl Salicylate Wintergreen Oil Napthalene Mothballs Phenol Carbolic Acid Potassium Bicarbonate Cream of Tartar Potassium Bitartrate Saltpeter Potassium Chromium Sulfate Chrome Alum Potassium Nitrate Saltpeter Silicon Dioxide Sand Sodium Bicarbonate Baking Soda Sodium Borate Borax Sodium Carbonate Washing Soda Sodium Chloride Salt Sodium Dioxide Sand Sodium Hydroxide Lye Sodium Hydroxide Drain Cleaner Sodium Silicate Water glass Sodium Sulfate Grauber's Salt Sodium Thiosulfate Photographers hypo Sulfuric Acid Battery Acid Sucrose Cane Sugar Zinc Chloride Tinner's Fluid Zinc Sulfate White Vitriol [ ] * Generating Chlorine Gas * Get a large bottle and put AJAX in the bottom. Then pour some Ammonia down into the bottle. Since the gas is heavier than air, it will stay down in there unless you use large amounts of AJAX or Ammonia. [ ] * Chlorine + Turpentine * Take a small cloth or rag and soak it in Turpentine. Quickly drop it into the bottle of Chlorine. It should give off alot of black smoke and probably start burning... [ ] * Chlorine Fuse Bomb * Materials: -1 Large explosive (M-80 or above) -1 Large cylindrical cardboard container such as kool-aid drink mix -1 Roll of black electrical tape Fill the container half-way with comet cleanser. Then nestle the explosive on the cleanser. Pour more cleanser until container is filled, leave explosive's wick sticking out above the comet, stick fuse through plastic top to the container tightly. To ignite this bomb just light the fuse and move quickly. The bomb will explode and fill the air with poison gas. [ ] * Chlorine Gas * Materials: -1 Two liter bottle -1 Measuring cup -1 Bottle of chlorox bleach -1 Bottle of Ammonia Pour 1/2 a cup of chlorox into the bottle. Pour 1/2 cup of Ammonia into the bottle. Quickly screw on the cap to the bottle and throw the bottle far away. The cap will blow off releasing a deadly cloud of fumes. [ ] * Chloride of Azode * A good example of how ammonium nitrate can be chemically mixed with other substances, and impart its explosive qualities to these otherwise nonexplosive materials, is in the preparation of chloride of azode. 1. A quantity of chlorine gas is collected in a small glass beaker, and placed upside down on another glass beaker containing a water solution of ammonium nitrate. 2. Now the solution of ammonium nitrate is heated gently. While it is being heated, the surface of the solution will become oily, and finally small droplets will form and sink to the bottom of the beaker. 3. After this process is finished, remove the heat and drain off excess ammonium nitrate solution. The droplets that remain at the bottom of the beaker are chloride of azode of nitrochloride. Nitrochloride explodes violently when brought into contact with an open flame, or when exposed to temperatures above 212 degrees F. There are hundreds and hundreds of formulas for the use of ammonium nitrate, in different explosive compounds. For further information, a chemistry manual or handbook of explosives can be useful. [ ] * Hydrogen + Chlorine * Take the test tube of Hydrogen and cover the mouth with your thumb. Keep it inverted, and bring it near the bottle of Chlorine (Not one that has reacted with Turpentine) Say "Goodbye test tube", and drop it into the bottle. the Hydrogen and Chlorine should react and possibly explode (Depending on purity and amount of each gas) an interesting thing about this is they will not react if it is dark and no heat or energy is around, but when a light is turned on, enough energy is present to cause them to react... [ ] * Generating Hydrogen Gas * To generate Hydrogen, all you need is an acid and a metal that will react with that acid, try Vinegar (Acetic Acid) with Zinc, Aluminum, Magnesium, Etc. You can now collect Hydrogen in something, if you note Hydrogen is lighter than air. Light a small amount and it burns with a small *POP* Another way of creating Hydrogen is by an electrolysis of water, this involves separating water (H2O) into Hydrogen and Oxygen by an electric current. To do this you need a 6-12 Volt battery, two test tubes, a large bowl, two carbon electrodes (Take them out of any unworking 6-12 Volt battery), and table salt. Dissolve the salt in a large bowl of water. submerge the two test tubes in the water and put the electrodes inside them, with the mouth of the tube aiming down. Connect the battery to some wire going down to the electrodes. This will work for awhile, but Chlorine will be generated along with oxygen which will undoubtedly corrode your copper wires leading to the Carbon electrodes. (The table salt is broken up into Chlorine and Sodium ions, the Chlorine comes off as a gas with oxygen while Sodium reacts with water to form Sodium Hydroxide...) Therefore, if you can get your hands on some Sulfuric Acid, use it instead. It will not affect the water conduct electricity. [ ] * Creating Oxygen * Get Hydrogen Peroxide and Magnesium Dioxide (It's a black powder found in batteries) mix the two in a bottle, and possibly some vaseline. The two will react and give off oxygen. If the bottle is stoppered, pressure will build up and shoot it off, if stoppered too tight notice it will explode. [ ] * Iodine * Tincture of Iodine contains mostly Alcohol and a little Iodine. To separate them, put the tincture of Iodine in a metal lid from a bottle and heat it over a candle. Have a stand holding another metal lid directly over the tincture (about 4-6 inches above it) with ice in top of it. the Alcohol should evaporate, and the Iodine should sublime, but should form Iodine crystals on the cold metal lid above. If this works, you can use the iodine along with household ammonia to form Nitrogen Triiodine. [ ] *How To Make Nitrogen Tri-Iodide* Probably the most hazardous explosive compound of all is nitrogen tri-iodide. Strangely enough, it is very popular with high school chemsits, who do not have the vaguest idea of what they are doing. The reason for its popularity may be the ready availability of the ingredients, but it is so sensitive to friction that a fly landing on it, has been known to detonate it. The recipe has only been included as a warning and a curiosity. It should not be used. [1> Add a small amount of solid iodine crystals to about 20 cc. of concentrated ammonium hydroxide. This operation must be performed very slowly, until a brownish-red precipitate is formed. [2&g...
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