Okay so if it's a fraction of 2% based on the drop, let's look at this,
130gr Prime Ammo at 2800fps
8.0 Mils or 27 MOA to reach 1000 yard target
We'll figure 2.2% for a .585 BC
So I get
.176 Mils
.59 MOA
6.0 Inches
Yet my AB Calculator gives me 2.1 Mils or 7.2 Inches of drift, which is close but still more by a fair percent because the numbers are small. It appears if you round it up, you have an issue, you round it down, it's more so inline. 5" of drift vs 7.2", still not really a miss on target when you consider the wind.
My biggest issue is the solids are 1/2 of jacketed bullets giving weight to the idea that it's a combination of factors like jacket thickness along with the lead underneath. I have been told that this along with the twist rate can affect the bullet shape under the jacket. Are we getting shotty data because there is a potential to deform the core so a segment of the data is actually corrupt, leading to larger numbers?
If the jacket is such a wildcard, why has it not been addressed? A different core, thicker jacket, etc would knock these numbers down.
Because look what a solid does,
A Warner Tool Flatline based on my data means,
1000 yards is 6 MILs of adjustment with a 122gr 6.5
1.2% of 6 Mils to reach 1000 yard target is .072, or .25 MOA
It's more in line with my real-world results across the board. If Bullet has a thicker jacket and the twist rate is not disturbing the lead core the same way, you can easily have a lower number than 2% it can be 1.75% and have a measurable difference.
Funny solids are less than 3" (
See Ode to Frank) and jackets are 6 to 7.2" under similar conditions, tells me it's inside the bullet not outside. The rifling is not going to really engrave the solid less, it's still copper, what moves is the lead core, which changes the flight characteristics and balances of which could add wobble. If you actually run the 2% vs 1.2% numbers it's huge.
2 Mils difference in bullet drop got you 1/2 the SD, seems pretty big. Why would you shoot a jacketed bullet or better, why would you continue to design a jacketed bullet if the results were so stark? Don't get me wrong I have been a solid fan for years and I have a long history with solids. These numbers alone would make jackets obsolete. At least it would change jacket technology or even better core tech, a stronger core would act like a solid because lead is so soft, a true target bullet could easily replace lead with something else.
I looked up densities of lead vs copper,
View attachment 6898658
They have a lead replacement designed just for this,
Why Use Technon® in Lead Replacement Compounds?
Technon® offers many advantages to compounders:
Technon® has a spheroidal grain structure. This makes for a faster and better mix
Technon® can save energy during the mixing process
Technon® has a Tap-density of 11.75 g/cc, which is higher than any density filler material currently available
Compounds containing Technon® are easier to inject, and better protect the injection machinery
Technon® has a large particle size, opening the door to many new applications, uses, and formulations, which are otherwise protected by patents.
What Are Some Lead Replacement Applications of These New Materials?
Ammunition: Projectiles and shots,
I am willing to be if 2% can swing in small percentages up, it can also swing down with modern bullets and repeating the same value for something that is changing constantly like bullet design and manufacturing, it's not as big as advertised.
