Originally posted by Viking
I beg to differ …
… And the speed difference is more than 5 mph. It's 8 mph on the deck and +-20 mph at 2k to 6k. I find both the La-7s speed and acceleration advantages to be a lot more than meaningless.
This is because the A-20 is cutting the corner on the 109, pulling less G (bleeding less E) and closing in the horizontal as well. Fly a 109K and an A-20 in a line abreast formation and then test their zoom-climbs. Both pulling the same G into the vertical. The 109 will handily out-climb the A-20.
I have seen enough spiral-climbing 109s to know that is not the case.
You will notice that a mere 25 feet separates the turn radiuses of the La-7 and F4U-4 using flaps. Without flaps the La-7 surprisingly out-turns the F4U-4 by a significant margin.
The difference in turn radius between the Spit I and Hurri I is indeed very similar to the La-7 and F4U-4, but only in feet. You'll notice that a difference of 23-25 feet is much more significant for the Spit and Hurri comparison since they have much smaller turning-circles in general.
Again, if you fight these two planes straight up, head to head Co-alt, the La-7 will find itself at a disadvantage right off the merge as a good F4U pilot will reverse his Hog mighty quick... Insanely quick. I agree that the La-7 turns better when the F4U-4 does not use flaps. But, that's like saying that a Honda Civic will out-corner a Formula One car if you remove the wheels from the F1 car. A Hog WILL be using flaps. Flying a DHog against Urchin's Spit16, the Hog won every merge and could hold that advantage long enough to get guns on.
Naturally, each pilot is comfortable in his ride, so I expect disagreements.
As to the A-20 vs 109K-4 in a zoom climb... We've tested this recently, including side-by-side tests and you may be surprised at the data (but not if you recognize that the A-20 has substantially greater kinetic energy at the beginning).
Beginning at 50 feet ASL, both aircraft are allowed to accelerate at max power. Watching E6B, at precisely 300 mph TAS, each aircraft is pulled into a pure vertical climb. This was performed 5 times on each, with the best result from each appearing below.
Measured data:
Time to 2,000 feet ASL
Time to 3,000 feet ASL
Speed (TAS) at 3,000 feet ASL
Results:
Bf 109K-4 to 2,000 feet: 8.44 seconds
A-20G to 2,000 feet: 7.24 seconds
Bf 109K-4 to 3,000 feet: 13.57 seconds
A-20G to 3,000 feet: 13.21 seconds.
Bf 109K-4, speed at 3,000 feet: 106 mph
A-20G, speed at 3,000 feet: 101 mph
So, what does this establish? When tested side by side, the A-20G quickly surges ahead and is about 70-80 yards ahead at 2,000 feet. At 3,000 feet the gap is closing, but the A-20 is still about 60-70 yards in front.
No need to cut the corner, but doing so only exacerbate's the other guy's problem.
The moral of the story is, no matter what you are flying, going vertical against a Co-E Havoc will gain you nothing over the first 15 seconds, and if you are flying a light-weight fighter, the difference is even greater. Fifteen seconds is a long time to have six nose mounted fifties behind you and closing.
Now, in a straight climb at best climb angle and speed, the 109K-4 simply runs away. Nonetheless, in a close-range dogfight, straight climb performance is not as significant as zoom climb. Just remember this; Kinetic Energy = ˝ x mass x velocity˛. Co-E, the heavier aircraft has more stored energy. However, it cannot maintain that advantage for long because gravity quickly overcomes the momentum. Yet, it gives you a substantial window of time to get a killing shot in.
I've received some 200 channel rants, such as: "BS!!!!!, a freakin A-20 can't outclimb a Ki-84!!!" But yeah, it can outclimb a Ki-84 for long enough to kill it.
Now, bring that bad old La-7 to the TA some weekday evening and we'll play tag.
My regards,
Widewing
