First, Having a calibrated reticle with known-marks is uber-important. You can't consistently hold for elevation or wind if you don't have some sort of calibrated scale to work with. Matching the knobs to the reticle is the 2nd most important thing. If you fire a shot and you observe that the impact was 2marks low and 1mark right, you know that you can adjust or hold 2marks high and 1mark left and your next round will be a hit if the wind has not changed. If your knobs don't match you reticle, you have to do more calculations to figure out how many marks in the scope equate to how many clicks on the scope knob. The 3rd most important thing is being able to quickly range the distance to target. This requires you to know the size of the target. The more accurate your assessment of the target's actual size, the more accurate your range estimation will be.
Here's my take on MIL vs. MOA reticles and knobs... (Note: I originally wrote the post below in early 2009 when I was using an MOA scope and reticle. I have since switched to Mils as I find it easier to keep track of the smaller dope numbers of Mil based dope vs the larger numbers reguired of MOA based dope. It's easier to count or hold off 2 mils than it is to count or hold off 7 moa.)
The actual choice of either MIL or MOA is a ford vs chevy arguement. Both cars will get you to work every day and both measurement systems will get you hits when used properly.
There are basically two camps supporting the two different systems. First, you have the MIL crowd. 1 MIL is 3.6" at 100yds and can easily be rounded to 3.5" for ease of calculations in your head. This rounding will create a 2.8% margin of error. The biggest thing the MIL crowd have going for them is the military's use of that system and all the development the supporting of MIL-specific tools, binoculars, scopes etc. The basic premise why you should get a MIL reticle is "because military/leo uses it". When used in a rangefinding role, the MIL system requires a more complicated calculation to figure out how far away a known-dimension target is located. The accuracy of the MIL system at rangefinding relies on the ability of the user to divide up the milradian markings as precisely as possible when measuring the angular size of a target. To reach 1/10MIL reading, you have to divide up the space between two dots into 10 segments and then approximate how many segments your target occupies. Try this: hold your thumb and first finger out in front of you like you are measuring something. Now look across the room and find something that fits say 1/3 or 2/3 of the distance between your thumb/finger. Do not adjust your fingers to fit the object. Now determine how many 1/10's of that space between thumb/finger does the object fill. Is it 2/10? Is it 3/10? Is it 4/10? That's what you need to determine when measuring the height to 1/10 of a MIL. Advancements in Mil based scope reticles have added 1/2 mil hash marks and some scopes even have 2/10 hash marks to help you get a more accurate measurement when using the reticle to range.
Then, you have the MOA crowd. 1 MOA is 1.047" at 100yds and can easily be rounded to 1" for ease of calculations in your head. This rounding will create a 4.5% margin of error. The biggest thing the MOA crowd have going for them is the ingrained use of inches as a common measurement system. The basic premise why you should get an MOA reticle is "because everyone knows what an inch looks like". When used in a rangefinding role, the MOA system has a less complicated calculation to figure out how far away a known-dimension target is located. It's easier to calculate a distance in MOA without a calculator as there is no "27.7 MIL factor" in the formula. The MIL crowd will be quick to point out that for the best accuracy of measurements, you still need to use a calculator and they are correct, but for a really quick (no calculator) range calculation, the MOA formula is simpler. The accuracy of the MOA system at rangefinding relies on the finer resolution of MOA markings when measuring the angular size of a target. To reach a 1/4 MOA reading, you only have to divide up the space between two hash marks into 4 segments and then approximate how many segments your target occupies. Try this: hold your thumb and first finger out in front of you like you are measuring something. Now look across the room and find something that fits say 1/3 or 2/3 of the distance between your thumb/finger. Do not adjust your fingers to fit the object. Now determine how many 1/4's of that space between thumb/finger does the object fill. Is it 1/4? Is it 1/2? Is it 3/4? That's what you need to determine when measuring the height to 1/4 of an MOA.
The adjustment of a single 1/10 MIL click is roughy 3/8" at 100yds so that's the intrinisic accuracy of the MIL system. The adjustment of a single 1/4 MOA click is roughy 1/4" at 100yds so that's the intrinisic accuracy of the MOA system. So, while MIL clicks are not as precise as MOA clicks, they also requires fewer clicks to adjust the scope from one elevation setting to another elevation setting. This is an important factor when you need to adjust the scope from your 100yd zero to another distance quickly. Let's say your bullet drops 54" from your 100yd zero to your 500yd zero. That would equate to 10.25 MOA or 3 MIL of adjustment. If you were to compare two nightforce scopes, the MOA knobs have 10 MOA of adjustment on one turn and the MIL knobs have 5 MIL of adjustment on one turn. So, you can see it's quicker to turn the MIL knob 2/3 of a turn than it is to turn the MOA knob 1 full turn plus another click. However, at 500yds, a single 1/4 MOA click equals 1.3" while a single 1/10 MIL click equals 1.8" so you can also see that the MOA system has 30% finer resolution when trying to dial-in your impact precisely.
My summary in support of the MOA system is that you have a finer resolution to work with that's easier to use for rangefinding without a calculator, but fewer companies making scopes with MOA reticles. My summary in support of the MIL system is that you have quicker adjustments and more support in the variety of scope manufacturers and the wonderful "mil-dot master" sliderule that eliminates the need of a calculator to quickly estimate ranges.
_________________ God shoots a Remington 700, drives a Chevy Truck and carries a Glock 19. I don't do any of those things.
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