I would expect the 338 to penetrate further, but the wound channel would be dependent on the bullet. It’s not a linear translation whether you believe that or not.
So what would be a real world, apples to apples comparison?
You're goalpost shifting. You stated:
This is the entire point of this thread, did you read it?
First off, I said I’m not against you “cult members”. I support you if you use the right bullet. Said that in my message. Might try rereading it. You are selecting specific bullets against specific bullets. And I’m not disputing you for your specific comparisons that you crafted. However, in general, I do believe energy has a role to play to answer the original question posed by the OP. Is it the most important thing? Nope. But it does have a role and it does matter. To discount it completely I do not think is fair.
That's false. "Hydrostatic shock" is definitively the temporary stretch cavity, and depending upon bullet construction and the fact that tissue is elastic, it may or may not be actual tissue damage, which is pretty much the entire point of this thread.
Odd question considering the subject. Why would you consider two different energy levels Apples to apples?
So in your mind the temprorary stretch cavity is not material? That it is not a factor in quick kills?
Where the bonus in larger cartridges comes in is deeper penetration, better bone breaking ability and the option to take shot angles that smaller cartridges with softer bullets shouldn't take. What would be a bad hit with a smaller cartridge can be just fine with say a 35 Whelen.
Gel data suggests different on the penetration. Just because it’s bigger and heavier doesn’t mean it penetrates more.
I wasn’t asking about different energy levels. I was asking about apes to apples differences.
So how do you reconcile the differences when its the same cartridge with the same velocity and the same energy, but different bullet construction?
How do energy numbers not matter when KE is a calculation that gives speed and mass a value. The bullet construction is important as is mass.
Not quite sure what you mean by that.
In and of itself, no I don't believe it contributes to quick kills. Functionally, it is the permanent crush cavity that is the driving factor for quick kills. The way I understand it, the temporary stretch cavity is damaging little to no tissue, and I don't believe in the theories of it "shocking" vital organs or blood vessels. In most cases it's just the stretching of tissue, which as I previously said, is elastic. Now add jacket shrapnel into the equation, and you can damage exponentially more area of tissue. Which is also why I said depending on bullet construction.
Because they don't tell you anything about what kind of wound will be produced, or how quickly the animal will die. Run the numbers on a 200gr 30 cal monolithic, and compare it to a 77gr 223 bullet. Now shoot animals and observe the wound channels, and report back. The 200gr mono will punch a hole through the vitals the size of the frontal diameter, the 77gr will look like a grenade went off inside the cavity. That's the crux of this entire thread. No one is arguing energy as a function of physics doesn't matter, it obviously does. I'm saying calculatable kinetic energy doesn't matter as a function of predicting wounding capabilities, because it's determined by bullet construction.
How does energy matter if it does not correlate to wound created. The bullet construction determines that, not the energy. Mass is also not relevant as the bullet must upset to not pencil through, thus a light bullet that upsets can cause a big wound and a heavy bullet that doesn’t upset won’t. That means the only relevant factor left in the energy equation is velocity. Velocity is important as it causes upset. No upset, no big wound.
I have nothing to add to Harvey or bluefish. Wound channels aren’t predictable by energy.
