Boring background information…
I’ve read various posts online discussing “mils” and how to calculate distance to target by using an object of known (or close to) size. However, just knowing the formula and a term bothers me. Here’s some background info: For the record, there are two types of “mils”. The first is known as a military “mil” and is short for “angular mil”. The “mil” came into popularity during the 1950’s through a bunch of military proposals and discussions. The second “mil” that we see is commonly known as a milrad, and is an abbreviation for milliradian. They aren’t the same thing. But they kind of are. Read on.
An angular mil (i.e. a military mill) is defined as 1/6400th of a circle, where a milliradian turns out to be 1/6283rd of a circle (it is related to and is defined by π, hence the odd number). While they are technically different, as far as NATO and the U.S. military artillery teams are concerned, they are for all intents and purposes the same thing. The difference between an angular mil and a milrad translates to an approximate error of 1 yard at 1000 yards. When you’re dealing with artillery, one meter doesn’t make a huge difference. However, if you’re a Marine Sniper, you’ll probably disagree.
For a military sniper, being a meter off on a thousand meter shot probably translates into a miss. Luckily, almost every rifle scope, as well as most tank guns, pieces of stadiametric equipment and binoculars are calibrated in milliradians. From here on down in this article, a “mil” will refer to a milliradian since it is the most applicable. OK, back to the technical stuff…
Think way back to trigonometry and the term “radian” should stand out a bit. A radian is a trigonometric unit of measure, more specifically a unit of angular measurement. No need to run through your bookshelf to find an old textbook, I’ll try to explain what that means and how it relates to rifle scopes. At this point, just understand that it is a unit of measure.
While we’re discussing units of measure, did you ever wonder what the term “minutes” (or seconds) meant in the geological coordinate system? It doesn’t refer to a measure of time, unless you’re in a Concord Jet. A “minute” or “minute of angle (or arc)” is a way of making a degree more precise. Each degree can be broken down into sixty (60) minutes, and minutes can be further broken down into seconds (sixty as well).
Back to radians. A radian is described as the ratio between the length of an arc and its radius. Mathematically speaking, an angle of 1 radian results in an arc with a length equal to the radius of the circle. The image below is from Wikipedia and depicts what is meant above.
Now the good stuff…
If you haven’t read it already, Nick put together a nice “Ask Foghorn” write-up on how to use the Mil-dot reticles in a scope to estimate range and how to calculate hold-over. The math isn’t really that confusing, but it introduces a potential error source.
Enter the “Mildot Master”. The Mildot Master is a slide-rule, which is nothing more than an analog calculator utilizing logarithmic and inverse logarithmic scales developed specifically for the following:
- Rapid and simple calculation of range to target, based on a measurement of the target with a mildot reticle, by aligning the estimated target size directly opposite the mildot measurement, and then reading the range at an index mark.
- Rapid and simple calculation of the amount of sight correction necessary to compensate for bullet drop and/or wind drift for a given range, enabling the shooter to determine either the equivalent telescopic sight adjustment (minute-of-angle, or MOA) or the equivalent hold-over (mils), by reading equivalents in both MOA and mils directly opposite the bullet drop/wind drift figure.
- Additionally, angle of fire for uphill or downhill shots can be accurately measured, and the up/down compensation can be closely calculated to reduce the errors such shots can induce
To run the “calculations”, you need to know the size of the target. Alternatively, you can also run the calculations if you know another reference measurement, such as a manmade object. Let’s run through an example. I stole the image below from Nick’s original write-up.
Easy as cake! Here is another example – a “non-human” this time. We know that the average whitetail buck is darn close to 18” from base of chest to top of spine. Using your reticle, you measure this space to be 1.5 mils.
The Mildot Master includes a “blank” space on the back for you to cut and tape a copy of your ballistics data. They include in the owners manual a nice chart that you can photocopy and write in your data.
Ratings (Out of Five Stars)
All ratings are relative to other similar products. Overall rating is not mathematically derived from the constituent ratings.
Ergonomics: * * * * *
Easily fits in a hunting pack, side pocket, and even those “cheek piece” pads that have built-in pockets.
Ease of Use: * * * *
You need to know the size of the reference target – be it a human target or of the four-legged variety. You could also use other objects, such as fence posts, windows, tractor/car tires, or anything you feel you are confident you know the size of. This gets faster with practice and a little bit of mental training. Using a slide rule is so easy, an engineer can do it.
Overall Rating: * * * * *
The material is a heavy-duty laminate and will outlast any digital calculator that you can buy.
For More Information:
Browse the website and purchase directly from Mildot Master’s Website