According to Wikipedia Massad Ayoob is an internationally known firearms and self-defense instructor. He has taught police techniques and civilian self-defense to both law enforcement officers and private citizens since 1974.
He was the director of the Lethal Force Institute (LFI) in Concord, New Hampshire from 1981 to 2009. Ayoob now directs the Massad Ayoob Group (MAG).
More than that bio Mr. Ayoob writes some of the best firearm books on the subject of the legal aftermath of a self defense shooting. I widely quote his work in my classes, and recommend his books courses and videos to my students.
Revolvers are great defensive tools. I find them to be reliable accurate and inexpensive self defense options. However some people are turned off by the need to reload individual rounds rather than having a magazine.
Various speed-loader devices have been invented to deal with this issue, and the bianchi strip is one of my favorite. In this video Ayoob shows a simple revolver reload using bianchi strips.
While bianchi strips are slightly slower than other speed-loader systems, they are much simpler and have no moving parts to break. I also find them to be easier to conceal due to the flat profile.
A common question asked by new preppers is “what is EMP?”
Electromagnetic pulse protection can be a contentious subject among preppers. In my experience there are two dominant views on Faraday cages. Which camp you belong to depends on if you are a ham radio operator or not. I base my ideas on the training I received when I worked as a radiological emergency response planner. Additionally much of my information comes from the FEMA document CPG 2-17.
CPG 2-17 volume I explains the science behind electromagnetic pulse. It also discusses the protection needed to mitigate this threat. Volume II and III of the CPG series deal with the construction of protection devices. They also show the reader how they can harden structures against Electromagnetic Pulses. Unfortunately, FEMA has discontinued the series. This makes the books a “holy grail” of EMP documents. They are extremely hard to find. Personally I only have been able to acquire volume one. Which means this article deals only with the theory behind EMP.
What Exactly is an Electromagnetic Pulse
An electromagnetic pulse (EMP) is a burst of electromagnetic radiation. Typically we think of EMP as coming from a nuclear explosion or from the sun. However, nuclear blasts and solar ejections are not the only situations where you can get an EMP. Several types of high energy explosions as well as suddenly fluctuating magnetic fields. can produce a burst of electromagnetic energy.
What you need to realize that EMP is Electromagnetic Radiation. As as such a EMP fits in the electromagnetic spectrum. The electomagnetic spectrum spans the entire range of all possible frequencies of radiation. Light, heat, sound, radio waves, electricity, and radiation all fit on this spectrum. The EM spectrum is organized by frequency, with the lower frequencies to the left and the higher on the right.
Frequency is the number of occurrences of a repeating event per unit time. Hertz (Hz) is the unit of measurement for frequency. 1 Hz means the cycle repeats once a second. If a light flashes at 1 HZ then it will flash 60 times a minute.
Not only is the spectrum organized by increasing frequency, increasing frequency corresponds with decreasing wavelength.
Wavelength is a measure of the distance between repetitions of a shape feature such as peaks, valleys, or zero-crossings (zero crossings is where the wave crosses the center-line of the wave or 0 on the X axis)
Basically the more repetitions you cram into a span of time the smaller distance you can travel. I can make ten little hops a minute easier than I can make ten standing long jumps in a minute. The distance between when my feet leave the ground to where they land is wavelength, how many I do in a span of time is frequency.
Electromagnetic Pulses Often come from a Nuclear Detonation
Like I said above, we tend to think of EMP coming from nuclear detonation. As a military weapon, this works best if the nuclear warhead is detonated hundreds of kilometers above the Earth’s surface. This is called a high-altitude electromagnetic pulse (HEMP) device. Effects of a HEMP device depend on a very large number of factors, including the altitude of the detonation, energy yield, gamma ray output, interactions with the Earth’s magnetic field, and electromagnetic shielding of targets.
So lets talk a second about the mechanisms of injury that we get from EMP. What do the pulses do to destroy the electrical grid and your electronic devices.
How an EMP Destroys Electronics
EMP works through induction – just like a transformer. When the electromagnetic energy passes by a conductor it induces the electrons inside the conductor to move – INDUCING electricity. It works just like the wall wart you use to charge your cell phone. The electricity coming from your wall at 115volt is run into an electromagnet this electromagnetism then induces current in a coil of wire next to the magnet – the electricity from that coil is a lower voltage and allows you to charge your cell phone.
The longer the conductor the more power is induced by a pulse. Power transmission lines, large antennas, metal pipelines all will have induced electricity. Anything connected to those items could have a large surge of electricity in the event of a EMP.
This surge of electricity can cause problems by melting tiny wires in the electronics, large enough surges can overwhelm insulators and turn them into conductors (melting them in the process). It can also exceed a diode’s breakdown voltage. This is the voltage required to reverse electrical flow in a one way diode – basically ending its life as a diode. If this happens the circuit will not work
Just because something does not plug into grid power does not mean it is immune to EMP – while equipment may not receive those strong induced currents, the tiny wires inside of microcircuits do not take as much current to melt so they can receive enough induced current through its internal circuits if the EMP is strong enough.
There are Different Types of EMP
With EMP there is some confusion – not only does it come from multiple events, it comes in several different variations.
This causes certain individuals to lump things that protect against one form of EMP and believe it protects against all types of EMP.
The International Electrotechnical Commission has categorized EMP into three types.
E1
The E1 pulse is the fastest form of nuclear EMP. It is extremely brief but very intense electromagnetic field that can quickly induce very high voltages in electrical conductors. E1 causes most of its damage by causing electrical breakdown voltages to be exceeded. E1 is the component that can destroy computers and communications equipment and it changes too quickly for ordinary lightning protectors to provide effective protection against it. Lightning has a building effect where the pulse takes a few milliseconds to build and protection circuits can detect it and shut down. E1 is almost instantaneous and moves through the circuits before they can detect. Like how you slow down after the cop has you on radar…
The E1 component is produced when gamma radiation from the nuclear detonation knocks electrons out of the atoms in the upper atmosphere (Compton effect).
E2
The E2 component is generated by the neutrons released by nuclear weapons. This E2 component is an “intermediate time” pulse that, by the IEC definition, lasts from about 1 microsecond to 1 second after the beginning of the electromagnetic pulse. The E2 component of the pulse has many similarities to the electromagnetic pulses produced by lightning. It has a lot of similarities to a lightning strike. Because of the widespread use of lightning protection technology, the E2 pulse is generally considered to be the easiest to protect against.
E1 will damage or destroy most lightning protection equipment, which means the later coming E2 will bypass those protections.
E3
Type E3 is different from both E1 and E2. The E3 is a very slow pulse, lasting tens to hundreds of seconds.
What happens is that after a HEMP, the earth’s magnetic field thrown out of balance by the EMP, and the molten iron core of the earth that creates our magnetic field restores itself. This causes additional induction. This is the most similar to geomagnetic storms caused by a very severe CME.
This is most likely to cause induced currents in long electrical conductors, which can then damage components such as power line transformers.
Because of the similarity between solar-induced geomagnetic storms and nuclear E3, it has become common to refer to solar-induced geomagnetic storms as “solar EMP.” At ground level, however, “solar EMP” is not known to produce an E1 or E2 component.
How to Protect Against an Electromagnetic Pulse
The best way to protect against EMP is through the use of Faraday cages to shield against the pulse. While we will talk about and show some cages in a later post the are theoretically simple.
A Faraday cage is a conductor (either solid or a mesh smaller than the height of the electromagnetic wave. This cage completely encapsulates your device. It also has an insulator inside to keep the protected items from touching the cage.
Just like a rock on the beach causing waves to flow around it, EMP hits the cage and the energy is directed around your electronics rather than through it.
Some believe this cage needs to be made out of ferrous materials, but all that is needed is that the cage is a conductor, as any conductor can make an electromagnet.
Some also believe you need to ground your cage. Personally I disagree and feel the grounding wire will act as an antenna. However, it is possible for a conductor and an insulator to turn into a capacitor, and some believe a grounding rod will prevent this.
Real World EMP Tactical Consideration
My biggest fear when it comes to Faraday cages is that any enemy that uses a HEMP against us will know some of us will have items that are protected, and will detonate a second EMP at some point (week – 10 days, a month) after the initial attack to destroy our redundant systems just like an earthquakes aftershock. This coupled with the idea that Faraday cages only protect against items that are not in use and stored properly leads me to spend time in building capability in the non-electric realm rather than spend all my resources building redundant cages stocked with redundant gear. Our civilization developed without electronics. As useful as modern electronics are, I can live without them. Being independent of grid electricity and consumer electronics is the base of my EMP plan.
Travis Tomasie is a member of the Army Marksmanship Unit, he gets to spend his days practicing, competing, and teaching firearm usage. He was not born with the skill to throw a magazine into a handgun with amazing speed and accuracy – he earned his ability through lots of practice. If you want the world’s fastest reload then you need to get up off the computer grab an unloaded handgun and some magazines – stand over your bed (so the magazines can fall to an place you can quickly pick them up) and practice practice practice.
If you want to beat Travis Tomasie on the world’s fastest reload it is simple:
When your hands get tired – keep practicing
When you wife (or husband, girlfriend, boyfriend, momma, father, dog, best friend) gets frustrated at the time you spend – keep practicing
When you feel the urge to stop – keep practicing
If you practice perfect form, start slow, stay smooth, and speed up only when your skill increases you WILL get this fast.
Having a fast reload is not rocket science, it is pure muscle memory that you earn by doing. No one can give you this skill, it can’t be taught or bought. Good coaches can help but you have to earn speed by long hours of going slow and getting it right.
In today’s post I will show how I make DIY hot glue bullets for inexpensive indoor training.
One of my childhood memories of my dad was his reloading practice ammunition for his service revolver. I remember it because I was upset when he used it to shoot a stray dog. To explain he told me it was only a waxed bullet, so it did not injure the dog, only hurt him so he would not come back.
I remember not being very sure if I accepted the idea behind shooting the dog, but I clearly remember thinking how I thought the wax bullets were cool, and I want to make some.
A lot of old school shooters still know how to pour wax into a shallow container and then use a shell casing to cut a wax projectile out of the hardened wax. Today, I am going to show you a new technique that makes a similar training bullet but has the advantage of being reusable as well as more area to engage the rifling.
Equipment and Materials
Hot glue gun and sufficient hot glue
Bullet mold
Drill and 1/8 drill bit
Mineral or vegetable oil
Revolver brass (will not cycle in a semi)
Primers and priming tool
Procedure
Put cleaned and deprimed brass in a vice and drill out primer pocket to 1/8 inch. This keeps the primers from backing out as much. You must keep this separate from your other brass, as it is DANGEROUS to ever reload this modified brass with powder.
Using a cue tip, lightly coat inside of bullet mold with oil. I used vegetable for this video, but mineral also works. This will not help out the seasoning on your mold, so the next time you cast lead you may cuss a little, so I would suggest casting a lot each time you do this so you don’t do it often.
Using the glue gun, squirt hot glue inside of mold until it is forced up and out into the sprue plate. Some suggest not using the sprue plate and trimming excess form mold with a knife, but I found it easier to use plate.
Let cool
Remove rounds from mold and wipe off excess oil
Use a priming tool to insert primer in to modified casing.
Hand press the plastic bullet into case mouth
Load into revolver and shoot into a safe backstop. I used a box filled with newspapers. It is minute of popcan accurate in a basement or other semi-confined space. This will eat up an aluminum can, and can break a window.
UNDER NO CIRCUMSTANCES USE THIS FOR LIVE FIRE PRACTICE AGAINST PEOPLE.
It is not simunitions, and it is not safe. I am the guy that reloads used propane bottles, and makes steam engines. I have a pretty high tolerance for risk, and I would not EVER allow anyone in my house to practice “man on man” with these bullets, the risk of injury or mistaking them for live ammo is just too great.
If you are using regular primers, there may still be a small amount of lead from the primer, but this is a great way to practice firearm fundamentals. A thousand primers is still under $50, so for a little money you can get a lot of practice. Its also a lot easier to go downstairs to your basement than to drive out to a range so maybe glue bullets will cause you to train more. Just do me a favor and don’t shoot stray dogs.
I have been doing research on the Federal Curio and Relic license for a few months now, and while I planned on writing about it here, James at Survival Punk asked me to do a guest post, and since this was on my mind, C&R licenses were what I wrote about. If you want to see my post, on his awesome site, follow this link.
Okay, so seeing the post online spurred me to act. I went to the ATF website and downloaded the form, added my credit card info for the $30 fee, and took a copy to my sheriff. I did have to explain to the secretary that Sheriff Bledsoe did not have to do anything, but the regulations stated I needed to inform him of my application.
I will follow up with a post when the ATF charges my credit card, any follow up info, and when I get my license. I will probably also then do another post on ordering my first C&R gun, and post how much the license is saving me.
I can’t wait to get the license, as many of the firearm stores I deal with online give deep discounts for those with Federal Firearm Licenses and do not discriminate between curio and relic and commercial FFLs.
