
5.0     SPECIAL AMMUNITION FOR PROJECTILE WEAPONS

     Explosive and/or poisoned ammunition is an important part of a social
deviant's arsenal.  Such ammunition gives the user a distinct advantage over
individual who use normal ammunition, since a grazing hit is good enough to
kill.  Special ammunition can be made for many types of weapons, from crossbows
to shotguns.

5.1     SPECIAL AMMUNITION FOR PRIMITIVE WEAPONS

     For the purposes of this publication, we will call any weapon primitive
that does not employ burning gunpowder to propel a projectile forward.  This
means blowguns, bows and crossbows, and wristrockets.

5.11     BOW AND CROSSBOW AMMUNITION

     Bows and crossbows both fire arrows or bolts as ammunition.  It is
extremely simple to poison an arrow or bolt, but it is a more difficult matter
to produce explosive arrows or bolts.  If, however, one can acquire aluminum
piping that is the same diameter of an arrow or crossbow bolt, the entire
segment of piping can be converted into an explosive device that detonates
upon impact, or with a fuse.  All that need be done is find an aluminum tube
of the right length and diameter, and plug the back end with tissue paper and
epoxy.  Fill the tube with any type of low-order explosive or sensitive high-
order explosive up to about 1/2 an inch from the top.  Cut a slot in the piece
of tubing, and carefully squeeze the top of the tube into a round point, making
sure to leave a small hole.  Place a no. 11 percussion cap over the hole, and
secure it with super glue.  Finally, wrap the end of the device with electrical
or duct tape, and make fins out of tape.  Or, fins can be bought at a sporting
goods store, and glued to the shaft.  The finished product should look like:

               _____
               |   | ---------- no. 11 percussion cap
               ||*||
                |*|
                |*|
                |*|
                |*|
                |*|
                |*| ----------- aluminum piping
                |*|
                |e|
                |x|
                |p|
                |l|
                |o|
                |s|
                |i|
                |v|
                |e|
                |*|
                |*|
                |*|
                |*|
                |*|
                |*|
                |*|
               /|_|\
              / |t| \
              | |p| |
              | |_| |
              | |e| | -------- fins
              | |p| |
              | |y| |
              |_|_|_|
                |_|

     tp: tissue paper
     epy: epoxy

     When the arrow or bolt strikes a hard surface, the percussion cap
explodes, igniting or detonating the explosive.

5.12     SPECIAL AMMUNITION FOR BLOWGUNS

     The blowgun is an interesting weapon which has several advantages.
A blowgun can be extremely accurate, concealable, and deliver an explosive
or poisoned projectile.  The manufacture of an explosive dart or projectile
is not difficult.  Perhaps the most simple design for such involves the use
of a pill capsule, such as the kind that are taken for headaches or allergies.
Such a capsule could easily be opened, and the medicine removed.  Next, the
capsule would be re-filled with an impact-sensitive explosive.  An additional
high explosive charge could be placed behind the impact-sensitive explosive,
if one of the larger capsules were used.  Finally, the explosive capsule would
be reglued back together, and a tassel or cotton would be glued to the end
containing the high explosive, to insure that the impact-detonating explosive
struck the target first.  Such a device would probably be about 3/4 of an inch
long, not including the tassel or cotton, and look something like this:

                 ____________________
                /mercury |           \-----------------------
               (fulminate|   R.D.X.   )---------------------- } tassels
                \________|___________/-----------------------

5.13     SPECIAL AMMUNITION FOR WRISTROCKETS AND SLINGSHOTS

     A modern wristrocket is a formidable weapon.  It can throw a shooter
marble about 500 ft. with reasonable accuracy.  Inside of 200 ft., it could well
be lethal to a man or animal, if it struck in a vital area.  Because of the
relatively large sized projectile that can be used in a wristrocket, the
wristrocket can be adapted to throw relatively powerful explosive projectiles.
A small segment of aluminum pipe could be made into an impact-detonating device
by filling it with an impact-sensitive explosive material.  Also, such a pipe
could be filled with a low-order explosive, and fitted with a fuse, which would
be lit before the device was shot.  One would have to make sure that the fuse
was of sufficient length to insure that the device did not explode before it
reached its intended target.  Finally, .22 caliber caps, such as the kind that
are used in .22 caliber blank guns, make excellent exploding ammunition for
wristrockets, but they must be used at a relatively close range, because of
their light weight.

5.2     SPECIAL AMMUNITION FOR FIREARMS

     When special ammunition is used in combination with the power and
rapidity of modern firearms, it becomes very easy to take on a small army with
a single weapon. It is possible to buy explosive ammunition, but that can be
difficult to do. Such ammunition can also be manufactured in the home.  There
is, however, a risk involved with modifying any ammunition.  If the ammunition
is modified incorrectly, in such a way that it makes the bullet even the
slightest bit wider, an explosion in the barrel of the weapon will occur.  For
this reason, NOBODY SHOULD EVER ATTEMPT TO MANUFACTURE SUCH AMMUNITION.

5.21     SPECIAL AMMUNITION FOR HANDGUNS

     If an individual wished to produce explosive ammunition for his/her
handgun, he/she could do it, provided that the person had an impact-sensitive
explosive and a few simple tools.  One would first purchase all lead bullets,
and then make or acquire an impact-detonating explosive.  By drilling a hole
in a lead bullet with a drill, a space could be created for the placement of
an explosive.  After filling the hole with an explosive, it would be sealed
in the bullet with a drop of hot wax from a candle.  A diagram of a completed
exploding bullet is shown below.

                      _o_ ------------ drop of wax
                     /|*|\
                    | |*|-|----------- impact-sensitive explosive
                    | |_| |
                    |_____|

     This hollow space design also works for putting poison in bullets.

5.22     SPECIAL AMMUNITION FOR SHOTGUNS

     Because of their large bore and high power, it is possible to create
some extremely powerful special ammunition for use in shotguns. If a shotgun
shell is opened at the top, and the shot removed, the shell can be re-closed.
Then, if one can find a very smooth, lightweight wooden dowel that is close to
the bore width of the shotgun, a person can make several types of shotgun-
launched weapons. Insert the dowel in the barrel of the shotgun with the
shell without the shot in the firing chamber. Mark the dowel about six inches
away from the end of the barrel, and remove it from the barrel. Next, decide
what type of explosive or incendiary device is to be used. This device can be a
chemical fire bottle (sect. 3.43), a pipe bomb (sect 4.42), or a thermit bomb
(sect 3.41 and 4.42). After the device is made, it must be securely attached to
the dowel. When this is done, place the dowel back in the shotgun. The bomb or
incendiary device should be on the end of the dowel. Make sure that the device
has a long enough fuse, light the fuse, and fire the shotgun. If the projectile
is not too heavy, ranges of up to 300 ft are possible. A diagram of a shotgun
projectile is shown below:

                ____
               ||  |
               ||  |
               ||  | ----- bomb, securely taped to dowel
               ||  |
               ||__|
               || |
               || | ------- fuse
               || |
               ||
               ||
               ||
               || --------- dowel
               ||
               ||
               ||
               ||
               ||
               || --------- insert this end into shotgun

5.3     SPECIAL AMMUNITION FOR COMPRESSED AIR/GAS WEAPONS

     This section deals with the manufacture of special ammunition for
compressed air or compressed gas weapons, such as pump B.B guns, CO2 B.B guns,
and .22 cal pellet guns.  These weapons, although usually thought of as kids
toys, can be made into rather dangerous weapons.

5.31     SPECIAL AMMUNITION FOR B.B GUNS

     A B.B gun, for this manuscript, will be considered any type of rifle or
pistol that uses compressed air or CO2 gas to fire a projectile with a caliber
of .177, either B.B, or lead pellet. Such guns can have almost as high a muzzle
velocity as a bullet-firing rifle. Because of the speed at which a .177 caliber
projectile flies, an impact detonating projectile can easily be made that has a
caliber of .177. Most ammunition for guns of greater than .22 caliber use
primers to ignite the powder in the bullet. These primers can be bought at gun
stores, since many people like to reload their own bullets. Such primers
detonate when struck by the firing pin of a gun. They will also detonate if
they are thrown at a hard surface at a great speed. Usually, they will also fit
in the barrel of a .177 caliber gun. If they are inserted flat end first, they
will detonate when the gun is fired at a hard surface. If such a primer is
attached to a piece of thin metal tubing, such as that used in an antenna, the
tube can be filled with an explosive, be sealed, and fired from a B.B gun. A
diagram of such a projectile appears below:

             _____ primers _______
            |                    |
            |                    |
            |                    |
            V                    V
          ______                ______
          | ________________________ |-------------------
          | ****** explosive ******* |------------------- } tassel or
          | ________________________ |-------------------   cotton
          |_____                _____|-------------------
                    ^
                    |
                    |
                    |_______ antenna tubing

     The front primer is attached to the tubing with a drop of super glue.
The tubing is then filled with an explosive, and the rear primer is glued on.
Finally, a tassel, or a small piece of cotton is glued to the rear primer, to
insure that the projectile strikes on the front primer.  The entire projectile
should be about 3/4 of an inch long.

5.32     SPECIAL AMMUNITION FOR .22 CALIBER PELLET GUNS

     A .22 caliber pellet gun usually is equivalent to a .22 cal rifle, at
close ranges.  Because of this, relatively large explosive projectiles can be
adapted for use with .22 caliber air rifles.  A design similar to that used in
section 5.12 is suitable, since some capsules are about .22 caliber or smaller.
Or, a design similar to that in section 5.31 could be used, only one would have
to purchase black powder percussion caps, instead of ammunition primers, since
there are percussion caps that are about .22 caliber.  A #11 cap is too small,
but anything larger will do nicely.

6.0     ROCKETS AND CANNONS

     Rockets and cannon are generally thought of as heavy artillery.
Perpetrators of violence do not usually employ such devices, because they are
difficult or impossible to acquire.  They are not, however, impossible to make.
Any individual who can make or buy black powder or pyrodex can make such things.
A terrorist with a cannon or large rocket is, indeed, something to fear.

6.1     ROCKETS

     Rockets were first developed by the Chinese several hundred years
before Christ.  They were used for entertainment, in the form of fireworks.
They were not usually used for military purposes because they were inaccurate,
expensive, and unpredictable.  In modern times, however, rockets are used
constantly by the military, since they are cheap, reliable, and have no recoil.
Perpetrators of violence, fortunately, cannot obtain military rockets, but they
can make or buy rocket engines.  Model rocketry is a popular hobby of the space
age, and to launch a rocket, an engine is required.  Estes, a subsidiary of
Damon, is the leading manufacturer of model rockets and rocket engines.  Their
most powerful engine, the "D" engine, can develop almost 12 lbs. of thrust;
enough to send a relatively large explosive charge a significant distance.
Other companies, such as Centuri, produce even larger rocket engines, which
develop up to 30 lbs. of thrust.  These model rocket engines are quite reliable,
and are designed to be fired electrically.  Most model rocket engines have
three basic sections.  The diagram below will help explain them.

     __________________________________________________________
     |_________________________________________________________| -- cardboard
      \  clay  | - - - - - - - - - - | * * * | . . . .|c|            casing
       \_______|  - - - - - - - - -  | * * * |  . . . |l|
        ______ _ - - - thrust - - -  | smoke | eject  |a|
       / clay  |  - - - - - - - - -  | * * * | . . . .|y|
      /________|_____________________|_______|________|_|_______
     |_________________________________________________________| -- cardboard
                                              casing

     The clay nozzle is where the igniter is inserted.  When the area labeled
"thrust" is ignited, the "thrust" material, usually a large single grain of a
propellant such as black powder or pyrodex, burns, forcing large volumes of hot,
rapidly expanding gasses out the narrow nozzle, pushing the rocket forward.
After the material has been consumed, the smoke section of the engine is
ignited.  It is usually a slow-burning material, similar to black powder that
has had various compounds added to it to produce visible smoke, usually black,
white, or yellow in color.  This section exists so that the rocket will be seen
when it reaches its maximum altitude, or apogee.  When it is burned up, it
ignites the ejection charge, labeled "eject".  The ejection charge is finely
powdered black powder.  It burns very rapidly, exploding, in effect.  The
explosion of the ejection charge pushes out the parachute of the model rocket.
It could also be used to ignite the fuse of a bomb...

     Rocket engines have their own peculiar labeling system.  Typical engine
labels are: 1/4A-2T, 1/2A-3T, A8-3, B6-4, C6-7, and D12-5.  The letter is an
indicator of the power of an engine.  "B" engines are twice as powerful as "A"
engines, and "C" engines are twice as powerful as "B" engines, and so on.  The
number following the letter is the approximate thrust of the engine, in pounds.
the final number and letter is the time delay, from the time that the thrust
period of engine burn ends until the ejection charge fires; "3T" indicates a
3 second delay.

NOTE: an extremely effective rocket propellant can be made by mixing aluminum
      dust with ammonium perchlorate and a very small amount of iron oxide.
      The mixture is bound together by an epoxy.

6.11     BASIC ROCKET BOMB

     A rocket bomb is simply what the name implies: a bomb that is delivered
to its target by means of a rocket.  Most people who would make such a device
would use a model rocket engine to power the device.  By cutting fins from balsa
wood and gluing them to a large rocket engine, such as the Estes "C" engine, a
basic rocket could be constructed.  Then, by attaching a "crater maker", or CO2
cartridge bomb to the rocket, a bomb would be added.  To insure that the fuse of
the "crater maker" (see sect. 4.42) ignited, the clay over the ejection charge
of the engine should be scraped off with a plastic tool.  The fuse of the bomb
should be touching the ejection charge, as shown below.

          ____________ rocket engine
          |                         _________ crater maker
          |                         |
          |                         |
          V                         |
     _______________________________V_
     |_______________________________|  ______________________
      \   | - - - - - -|***|::::|      /# # # # # # # # # # # \
       \__| - - - - - -|***|::::|  ___/  # # # # # # # # # # # \
        __  - - - - - -|***|::::|---fuse--- # #  explosive  # # )
       /  | - - - - - -|***|::::|  ___   # # # # # # # # # # # /
      /___|____________|___|____|____ \_______________________/
     |_______________________________|


     thrust> - - - - - -
     smoke>  ***
     ejection charge> ::::

     Duct tape is the best way to attach the crater maker to the rocket
engine.  Note in the diagram the absence of the clay over the ejection charge
Many different types of explosive payloads can be attached to the rocket, such
as a high explosive, an incendiary device, or a chemical fire bottle.

   Either four or three fins must be glued to the rocket engine to insure that
the rocket flies straight. The fins should look like the following diagram:

          |\
          | \
          |  \
          |   \  <--------- glue this to rocket engine
          |    \
          |     \
          |      \
          |       |
          |       |
          |       |
  leading edge    |
   ------->       |
          |       |
          |       |  trailing edge
          |       |    <--------
          |       |
          |       |
          |       |
          |       |
           \_____/

     The leading edge and trailing edge should be sanded with sandpaper so
that they are rounded.  This will help make the rocket fly straight.  A two
inch long section of a plastic straw can be attached to the rocket to launch it
from.  A clothes hanger can be cut and made into a launch rod.  The segment of
a plastic straw should be glued to the rocket engine adjacent to one of the fins
of the rocket.  A front view of a completed rocket bomb is shown below.

                              |
           fin                | <------ fin
            |                 |           |
            |                 |           |
            |               __|__         |
            V              /     \        V
           ---------------|       |---------------
                           \_____/
                              |o <----------- segment of plastic straw
                              |
                              |
                              | <------ fin
                              |
                              |

     By cutting a coat hanger at the indicated arrows, and bending it, a
launch rod can be made.  After a fuse is inserted in the engine, the rocket is
simply slid down the launch rod, which is put through the segment of plastic
straw. The rocket should slide easily along a coathanger, such as the one
illustated on the following page:
                        ____
                       /    \
                      |      |
          cut here _____     |
                       |     |
                       |     |
                       |    / \
                       V   /   \
         _________________/     \________________
        /                                        \
       /                                          \
      /____________________________________________\
                                   ^
                                   |
                                   |
                    and here ______|

     Bend wire to this shape:

                         _______ insert into straw
                         |
                         |
                         |
                         V
          ____________________________________________
          \
           \
            \
             \
              \  <--------- bend here to adjust flight angle
               |
               |
               |
               |
               |
               | <---------- put this end in ground
               |

6.12     LONG RANGE ROCKET BOMB

     Long range rockets can be made by using multi-stage rockets.  Model
rocket engines with an "0" for a time delay are designed for use in multi-
stage rockets.  An engine such as the D12-0 is an excellent example of such an
engine.  Immediately after the thrust period is over, the ejection charge
explodes.  If another engine is placed directly against the back of an "0"
engine, the explosion of the ejection charge will send hot gasses and burning
particles into the nozzle of the engine above it, and ignite the thrust section.
 This will push the used "0" engine off of the rocket, causing an overall loss of
weight.  The main advantage of a multi-stage rocket is that it loses weight as
travels, and it gains velocity.  A multi-stage rocket must be designed somewhat
differently than a single stage rocket, since, in order for a rocket to fly
straight, its center of gravity must be ahead of its center of drag.  This is
accomplished by adding weight to the front of the rocket, or by moving the
center of drag back by putting fins on the rocket that are well behind the
rocket.  A diagram of a multi-stage rocket appears on the following page:

                    ___
                   /   \
                   |   |
                   | C |
                   | M | ------ CM: Crater Maker
                   |   |
                   |   |
                   |___|
                   |   |
                   |   |
                   |   |
                   | C | ------ C6-5 rocket engine
                  /| 6 |\
                 / | | | \
                /  | 5 |  \
               /   |___|   \ ---- fin
              /   /|   |\   \
             /   / |   | \   \
            /   /  |   |  \   \
           /   /   | C |   \   \
          |   /    | 6 |    \   |
          |  /     | | |     \  |
          | /      | 0 |      \ |
          |/       |___|       \|
          |       /     \       |
          \______/   ^   \______/ ------- fin
                     |
                     |
                     |
                     |
                     C6-0 rocket engine

     The fuse is put in the bottom engine.

     Two, three, or even four stages can be added to a rocket bomb to give it
a longer range.  It is important, however, that for each additional stage, the
fin area gets larger.

6.13     MULTIPLE WARHEAD ROCKET BOMBS

     "M.R.V." is an acronym for Multiple Reentry Vehicle.  The concept is
simple: put more than one explosive warhead on a single missile.  This can be
done without too much difficulty by anyone who knows how to make crater-makers
and can buy rocket engines.  By attaching crater makers with long fuses to a
rocket, it is possible that a single rocket could deliver several explosive
devices to a target. Such a rocket might look like the diagram on the
following page:
              ___
             /   \
             |   |
             | C |
             | M |
             |___|
          ___|   |___
          |  |   |  |
          |  | T |  |
         / \ | U | / \
        /   \| B |/   \
        |   || E ||   |
        | C ||   || C |
        | M ||   || M |
        |   ||___||   |
        \___/| E |\___/
             | N |
            /| G |\
           / | I | \
          /  | N |  \
         /   | E |   \
        /    |___|    \
       / fin/  |  \ fin\
      |    /   |   \    |
       \__/    |    \__/

               ^
               |____ fin

     The crater makers are attached to the tube of rolled paper with tape.
the paper tube is made by rolling and gluing a 4 inch by 8 inch piece of paper.
The tube is glued to the engine, and is filled with gunpowder or black powder.
Small holes are punched in it, and the fuses of the crater makers are inserted
in these holes.  A crater maker is glued to the open end of the tube, so that
its fuse is inside the tube.  A fuse is inserted in the engine, or in the bottom
engine if the rocket bomb is multi stage, and the rocket is launched from the
coathanger launcher, if a segment of a plastic straw has been attached to it.

6.2     CANNON

     The cannon is a piece of artillery that has been in use since the
11th century.  It is not unlike a musket, in that it is filled with powder,
loaded, and fired.  Cannons of this sort must also be cleaned after each shot,
otherwise, the projectile may jam in the barrel when it is fired, causing the
barrel to explode.  A sociopath could build a cannon without too much trouble,
if he/she had a little bit of money, and some patience.

6.21     BASIC PIPE CANNON

     A simple cannon can be made from a thick pipe by almost anyone.  The
only difficult part is finding a pipe that is extremely smooth on its interior.
This is absolutely necessary; otherwise, the projectile may jam.  Copper or
aluminum piping is usually smooth enough, but it must also be extremely thick to
withstand the pressure developed by the expanding hot gasses in a cannon.  If
one uses a projectile such as a CO2 cartridge, since such a projectile can be
made to explode, a pipe that is about 1.5 - 2 feet long is ideal.  Such a pipe
MUST have walls that are at least 1/3 to 1/2 an inch thick, and be very smooth
on the interior.  If possible, screw an endplug into the pipe.  Otherwise, the
pipe must be crimped and folded closed, without cracking or tearing the pipe.
A small hole is drilled in the back of the pipe near the crimp or endplug.
Then, all that need be done is fill the pipe with about two teaspoons of
grade blackpowder or pyrodex, insert a fuse, pack it lightly by ramming a wad
of tissue paper down the barrel, and drop in a CO2 cartridge.  Brace the cannon
securely against a strong structure, light the fuse, and run.  If the person is
lucky, he will not have overcharged the cannon, and he will not be hit by
pieces of exploding barrel.  Such a cannon would look like this:

             __________________ fuse hole
             |
             |
             V
      ________________________________________________________________
     | |______________________________________________________________|
     |endplug|powder|t.p.| CO2 cartridge
     | ______|______|____|____________________________________________
     |_|______________________________________________________________|

     An exploding projectile can be made for this type of cannon with a CO2
cartridge. It is relatively simple to do. Just make a crater maker, and
construct it such that the fuse projects about an inch from the end of the
cartridge. Then, wrap the fuse with duct tape, covering it entirely, except for
a small amount at the end. Put this in the pipe cannon without using a tissue
paper packing wad. When the cannon is fired, it will ignite the end of the fuse,
and shoot the CO2 cartridge. The explosive-filled cartridge will explode in
about three seconds, if all goes well. Such a projectile would look like this:

           ___
          /   \
          |   |
          | C |
          | M |
          |   |
          |   |
          |\ /|
          | | | ---- tape
          |_|_|
            |
            | ------ fuse

6.22     ROCKET FIRING CANNON

     A rocket firing cannon can be made exactly like a normal cannon; the
only difference is the ammunition. A rocket fired from a cannon will fly
further than a rocket alone, since the action of shooting it overcomes the
initial inertia. A rocket that is launched when it is moving will go further
than one that is launched when it is stationary. Such a rocket would resemble
a normal rocket bomb, except it would have no fins. It would look like this:

           ___
          /   \
          |   |
          | C |
          | M |
          |   |
          |   |
          |___|
          | E |
          | N |
          | G |
          | I |
          | N |
          | E |
          |___|

     The fuse on such a device would, obviously, be short, but it would not
be ignited until the rocket's ejection charge exploded.  Thus, the delay before
the ejection charge, in effect, becomes the delay before the bomb explodes.
Note that no fuse need be put in the rocket; the burning powder in the cannon
will ignite it, and simultaneously push the rocket out of the cannon at a high
velocity.

7.0     PYROTECHNICA ERRATA

     There are many other types of pyrotechnics that a perpetrator of
violence might employ. Smoke bombs can be purchased in magic stores, and large
military smoke bombs can be bought through adds in gun and military magazines.
Also, fireworks can also be used as weapons of terror. A large aerial display
rocket would cause many injuries if it were to be fired so that it landed on the
ground near a crowd of people. Even the "harmless" pull-string fireworks, which
consists of a sort of firecracker that explodes when the strings running
through it are pulled, could be placed inside a large charge of a sensitive
high explosive. Tear gas is another material that might well be useful
to the sociopath, and such a material could be instantly disseminated over
a large crowd by means of a rocket-bomb, with nasty effects.

7.1     SMOKE BOMBS

     One type of pyrotechnic device that might be employed by a terrorist in
many way would be a smoke bomb.  Such a device could conceal the getaway route,
or cause a diversion, or simply provide cover.  Such a device, were it to
produce enough smoke that smelled bad enough, could force the evacuation of a
building, for example.  Smoke bombs are not difficult to make.  Although the
military smoke bombs employ powdered white phosphorus or titanium compounds,
such materials are usually unavailable to even the most well-equipped terrorist.
Instead, he/she would have to make the smoke bomb for themselves.

     Most homemade smoke bombs usually employ some type of base powder, such
as black powder or pyrodex, to support combustion.  The base material will burn
well, and provide heat to cause the other materials in the device to burn, but
not completely or cleanly.  Table sugar, mixed with sulfur and a base material,
produces large amounts of smoke.  Sawdust, especially if it has a small amount
of oil in it, and a base powder works well also.  Other excellent smoke
ingredients are small pieces of rubber, finely ground plastics, and many
chemical mixtures.  The material in road flares can be mixed with sugar and
sulfur and a base powder produces much smoke.  Most of the fuel-oxodizer
mixtures, if the ratio is not correct, produce much smoke when added to a base
powder.  The list of possibilities goes on and on.  The trick to a successful
smoke bomb also lies in the container used.  A plastic cylinder works well, and
contributes to the smoke produced.  The hole in the smoke bomb where the fuse
enters must be large enough to allow the material to burn without causing an
explosion.  This is another plus for plastic containers, since they will melt
and burn when the smoke material ignites, producing an opening large enough to
prevent an explosion.

7.2     COLORED FLAMES

     Colored flames can often be used as a signaling device for terrorists.
by putting a ball of colored flame material in a rocket; the rocket, when the
ejection charge fires, will send out a burning colored ball.  The materials that
produce the different colors of flames appear below.

COLOR               MATERIAL                        USED IN
                                       
_______________________________________________________________________________
red                 strontium                      road flares,
                    salts                          red sparklers
                    (strontium nitrate)
_______________________________________________________________________________
green               barium salts                   green sparklers
                    (barium nitrate)
_______________________________________________________________________________
yellow              sodium salts                   gold sparklers
                    (sodium nitrate)
_______________________________________________________________________________
blue                powdered copper                blue sparklers,
                    old pennies
_______________________________________________________________________________
white               powdered magnesium             firestarters,
                    or aluminum                    aluminum foil
_______________________________________________________________________________
purple              potassium permanganate         purple fountains,
                                                   treating sewage


7.3     TEAR GAS

     A terrorist who could make tear gas or some similar compound could use
it with ease against a large number of people.  Tear gas is fairly complicated
to make, however, and this prevents such individuals from being able to utilize
its great potential for harm.  One method for its preparation is shown below.

     EQUIPMENT
     _________

     1.  ring stands (2)
     2.  alcohol burner
     3.  erlenmeyer flask, 300 ml
     4.  clamps (2)
     5.  rubber stopper
     6.  glass tubing
     7.  clamp holder
     8.  condenser
     9.  rubber tubing
     10.  collecting flask
     11.  air trap
     12.  beaker, 300 ml


     MATERIALS

     10 gms  glycerine
     2 gms sodium bisulfate
     distilled water

1.)  In an open area, wearing a gas mask, mix 10 gms of glycerine with 2 gms
     of sodium bisulfate in the 300 ml erlenmeyer flask.

2.)  Light the alcohol burner, and gently heat the flask.

3.)  The mixture will begin to bubble and froth; these bubbles are tear gas.

4.)  When the mixture being heated ceases to froth and generate gas, or a brown
     residue becomes visible in the tube, the reaction is complete.  Remove the
     heat source, and dispose of the heated mixture, as it is corrosive.

5.)  The material that condenses in the condenser and drips into the collecting
     flask is tear gas.  It must be capped tightly, and stored in a safe place.

7.4     FIREWORKS

     While fireworks cannot really be used as an effective means of terror,
they do have some value as distractions or incendiaries.  There are several
basic types of fireworks that can be made in the home, whether for fun, profit,
or nasty uses.

7.41     FIRECRACKERS

     A simple firecracker can be made from cardboard tubing and epoxy.
The instructions are below:

     1) Cut a small piece of cardboard tubing from the tube you are using.
        "Small" means anything less than 4 times the diameter of the tube.

     2) Set the section of tubing down on a piece of wax paper, and fill
        it with epoxy and the drying agent to a height of 3/4 the diameter
        of the tubing.  Allow the epoxy to dry to maximum hardness, as
        specified on the package.

     3) When it is dry, put a small hole in the middle of the tube, and
        insert a desired length of fuse.

     4) Fill the tube with any type of flame-sensitive explosive.  Flash
        powder, pyrodex, black powder, potassium picrate, lead azide,
        nitrocellulose, or any of the fast burning fuel-oxodizer mixtures
        will do nicely.  Fill the tube almost to the top.

     5) Pack the explosive tightly in the tube with a wad of tissue paper
        and a pencil or other suitable ramrod.  Be sure to leave enough space
         for more epoxy.

     6) Fill the remainder of the tube with the epoxy and hardener, and allow
         it to dry.

     7) For those who wish to make spectacular firecrackers, always use
        flash powder, mixed with a small amount of other material for
        colors.  By crushing the material on a sparkler, and adding it
        to the flash powder, the explosion will be the same color as the
        sparkler.   By adding small chunks of sparkler material, the
        device will throw out colored burning sparks, of the same color
        as the sparkler.  By adding powdered iron, orange sparks will
        be produced.  White sparks can be produced from magnesium shavings,
        or from small, LIGHTLY crumpled balls of aluminum foil.

        Example:  Suppose I wish to make a firecracker that will explode
               with a red flash, and throw out white sparks.  First,
               I would take a road flare, and finely powder the material
               inside it.   Or, I could take a red sparkler, and finely
               powder it.  Then, I would mix a small amount of this
               material with the flash powder.  (NOTE: FLASH POWDER
               MAY REACT WITH SOME MATERIALS THAT IT IS MIXED WITH, AND
               EXPLODE SPONTANEOUSLY!)  I would mix it in a ratio of
               9 parts flash powder to 1 part of flare or sparkler
               material, and add about 15 small balls of aluminum foil
               I would store the material in a plastic bag overnight
               outside of the house, to make sure that the stuff doesn't
               react.  Then, in the morning, I would test a small amount
               of it, and if it was satisfactory, I would put it in the
               firecracker.

     8) If this type of firecracker is mounted on a rocket engine,
        professional to semi-professional displays can be produced.

7.42     SKYROCKETS

     An impressive home made skyrocket can easily be made in the home from
model rocket engines.  Estes engines are recommended.

     1) Buy an Estes Model Rocket Engine of the desired size, remembering
        that the power doubles with each letter.  (See sect. 6.1 for details)

     2) Either buy a section of body tube for model rockets that exactly
        fits the engine, or make a tube from several thicknesses of paper
        and glue.

     3) Scrape out the clay backing on the back of the engine, so that
        the powder is exposed.  Glue the tube to the engine, so that the
        tube covers at least half the engine.  Pour a small charge of
        flash powder in the tube, about 1/2 an inch.

     4) By adding materials as detailed in the section on firecrackers,
        various types of effects can be produced.

     5) By putting Jumping Jacks or bottle rockets without the stick
        in the tube, spectacular displays with moving fireballs or
           M.R.V.'s can be produced.

     6) Finally, by mounting many home made firecrackers on the tube with
        the fuses in the tube, multiple colored bursts can be made.

7.43     ROMAN CANDLES

     Roman candles are impressive to watch.  They are relatively difficult
to make, compared to the other types of home-made fireworks, but they are
well worth the trouble.

     1) Buy a 1/2 inch thick model rocket body tube, and reinforce it
        with several layers of paper and/or masking tape.  This must
        be done to prevent the tube from exploding.  Cut the tube into
        about 10 inch lengths.

     2) Put the tube on a sheet of wax paper, and seal one end with epoxy
        and the drying agent.  About 1/2 of an inch is sufficient.

     3) Put a hole in the tube just above the bottom layer of epoxy,
        and insert a desired length of water proof fuse.  Make sure that
        the fuse fits tightly.

     4) Pour about 1 inch of pyrodex or gunpowder down the open end of the
        tube.

     5) Make a ball by powdering about two 6 inch sparklers of the desired
        color.  Mix this powder with a small amount of flash powder and
        a small amount of pyrodex, to have a final ratio (by volume) of
        60% sparkler material / 20% flash powder / 20% pyrodex.  After
        mixing the powders well, add water, one drop at a time, and mixing
        continuously, until a damp paste is formed.  This paste should
        be moldable by hand, and should retain its shape when left alone.
        Make a ball out of the paste that just fits into the tube.  Allow
        the ball to dry.

     6) When it is dry, drop the ball down the tube.  It should slide down
        fairly easily.  Put a small wad of tissue paper in the tube, and pack
         it gently against the ball with a pencil.

     7) When ready to use, put the candle in a hole in the ground, pointed
        in a safe direction, light the fuse, and run.  If the device works,
        a colored fireball should shoot out of the tube to a height of
        about 30 feet.  This height can be increased by adding a slightly
        larger powder charge in step 4, or by using a slightly longer tube.

     8) If the ball does not ignite, add slightly more pyrodex in step 5.

     9) The balls made for roman candles also function very well in rockets,
        producing an effect of falling colored fireballs.

8.0     LISTS OF SUPPLIERS AND MORE INFORMATION

     Most, if not all, of the information in this publication can be obtained
 through a public or university library.  There are also many publications that
are put out by people who want to make money by telling other people how to
make explosives at home.  Adds for such appear frequently in paramilitary
magazines and newspapers.  This list is presented to show the large number of
places that information and materials can be purchased from.   It also includes
fireworks companies and the like.

COMPANY NAME AND ADDRESS               WHAT COMPANY SELLS
               

 FULL AUTO CO. INC.                     EXPLOSIVE RECIPES,
 P.O. BOX 1881                          PAPER TUBING
 MURFREESBORO, TN
 37133
_______________________________________________________________________________

 UNLIMITED                              CHEMICALS AND FUSE
 BOX 1378-SN
 HERMISTON, OREGON
 97838
_______________________________________________________________________________

 AMERICAN FIREWORKS NEWS                FIREWORKS NEWS MAGAZINE WITH
 SR BOX 30                              SOURCES AND TECHNIQUES
 DINGMAN'S FERRY, PENNSYLVANIA
 18328
_______________________________________________________________________________

 BARNETT INTERNATIONAL INC.             BOWS, CROSSBOWS, ARCHERY MATERIALS,
 125 RUNNELS STREET                     AIR RIFLES
 P.O. BOX 226
 PORT HURON, MICHIGAN
 48060
_______________________________________________________________________________

 CROSSMAN AIR GUNS                      AIR GUNS
 P.O. BOX 22927
 ROCHESTER, NEW YORK
 14692
_______________________________________________________________________________

 EXECUTIVE PROTECTION PRODUCTS INC.     TEAR GAS GRENADES,
 316 CALIFORNIA AVE.                    PROTECTION DEVICES
 RENO, NEVADA
 89509
_______________________________________________________________________________

 BADGER FIREWORKS CO. INC.              CLASS "B" AND "C" FIREWORKS
 BOX 1451
 JANESVILLE, WISCONSIN
 53547
_______________________________________________________________________________

 NEW ENGLAND FIREWORKS CO. INC.         CLASS "C" FIREWORKS
 P.O. BOX 3504
 STAMFORD, CONNECTICUTT
 06095
_______________________________________________________________________________

 RAINBOW TRAIL                          CLASS "C" FIREWORKS
 BOX 581
 EDGEMONT, PENNSYLVANIA
 19028
_______________________________________________________________________________

 STONINGTON FIREWORKS INC.              CLASS "C" AND "B" FIREWORKS
 4010 NEW WILSEY BAY U.25 ROAD
 RAPID RIVER, MICHIGAN
 49878
_______________________________________________________________________________

 WINDY CITY FIREWORKS INC.              CLASS "C" AND "B" FIREWORKS
 P.O. BOX 11                            (GOOD PRICES!)
 ROCHESTER, INDIANNA
 46975
_______________________________________________________________________________


BOOKS


THE ANARCHIST'S COOKBOOK
THE IMPROVISED MUNITIONS MANUAL
MILITARY EXPLOSIVES
FIRES AND EXPLOSIONS

9.0     CHECKLIST FOR RAIDS ON LABS

     In the end, the serious terrorist would probably realize that if he/she
wishes to make a truly useful explosive, he or she will have to steal the
chemicals to make the explosive from a lab.  A list of such chemicals in order
of priority would probably resemble the following:

     LIQUIDS                    SOLIDS
     _______                    ______

     ____     Nitric Acid        ____     Potassium Perchlorate
     ____     Sulfuric Acid      ____     Potassium Chlorate
     ____     95% Ethanol        ____     Picric Acid (usually a powder)
     ____     Toluene            ____     Ammonium Nitrate
     ____     Perchloric Acid    ____     Powdered Magnesium
     ____     Hydrochloric Acid  ____     Powdered Aluminum

                         ____    Potassium Permanganate
                         ____    Sulfur
                         ____    Mercury
                         ____    Potassium Nitrate
                         ____    Potassium Hydroxide
                         ____    Phosphorus
                         ____    Sodium Azide
                         ____    Lead Acetate
                         ____    Barium Nitrate


10.0     USEFUL PYROCHEMISTRY

     In general, it is possible to make many chemicals from just a few basic
ones.  A list of useful chemical reactions is presented.  It assumes knowledge
of general chemistry; any individual who does not understand the following
reactions would merely have to read the first five chapters of a high school
chemistry book.

1.  potassium perchlorate from perchloric acid and potassium hydroxide
     K(OH)       +     HClO     ---->     KClO     +    H O
                   4              4           2

2.  potassium nitrate from nitric acid and potassium hydroxide
      "       +     HNO     ---->     KNO     +     "
                  3             3

3.  ammonium perchlorate from perchloric acid and ammonium hydroxide
     NH OH       +     HClO     ---->     NH ClO     +     "
       3              4                 3   4

4.  ammonium nitrate from nitric acid and ammonium hydroxide
        NH OH       +     HNO     ---->     NH NO     +     "
       3             3                      3  3

5.  powdered aluminum from acids, aluminum foil, and magnesium

A.     aluminum foil    +    6HCl    ---->   2AlCl   +   3H
                                                3            2

B.     2AlCl  (aq)   +    3Mg    ---->  3MgCl (aq)   +  2Al
          3                                  2

     The Al will be a very fine silvery powder at the bottom of the container
which must be filtered and dried.   This same method works with nitric and
sulfuric acids, but these acids are too valuable in the production of high
explosives to use for such a purpose, unless they are available in great excess.

         Well these three books were cut up by Dead Horse so that they could
    be easily downloaded and uploaded... Feel free to use this book in
     whatever way you feel neccesarry. But don't go blaming me for putting
    ideas into your head!!!!

 