Haha Ya, Easyscor was with us when we drilled, and I mean drilled down to the bone. He knows why I get impatient sometimes when the discussion gets bogged down in the spreadsheets and performance charts. We have always taken whatever was given and did remarkably well with it. Spreadsheets tell you what the Plane does. We define what can be done with them
What a plane can do also defines what can be done with it. A P-51 will never be able to turn with Ki-43. Physics simply dictate that this is impossible. A Ki-43 will never catch a 262 in a level flight, once again, the physics dictate that this will never happen. Even in a dive, the Ki-43 is limited by the structural integrity of its airframe, to such a degree that Vne for the Ki-43 is less than Vmax for the 262. An A6M2 cannot dive with a TBM; it simply breaks apart before the TBM does.
Just tested some times for deceleration from a dive. The A6M2 takes ~55 seconds to decelerate from 375mph to about 282mph, and ~1:26 to decelerate to 271mph.
The TBM, loaded with a torpedo, takes ~47 seconds to decelerate from ~375 to 280mph, 1:18 to decelerate to 269mph, 2:00 to decelerate to 255mph.
So from a dive, both aircraft take roughly comparable times to decelerate to the 280mph mark. However, the TBM has a higher dive speed.
Let us assume for the sake of argument that a group of A6M2's exit their dive 3k behind a group of TBM's that have also exited a dive. For ~40 seconds, we know their speed differential is essentially nil, assuming both have the same dive speed. The A6M will take an additional 31 seconds to decelerate to Vmax of 271mph at 500ft. The TBM will take an additional 53 seconds to decelerate to it's Vmax.
For the ease of calculations and expediency, lets simply assume the TBM has decelerated to 255mph by 1:26. This gives us an average speed of 275mph for the A6M2 from 0:55 to 1:26, and an average speed of 267 for the TBM, giving us an average speed differential of 8mph for time ~0:50 to 1:26. So by time 1:26, we can assume the A6M2 has closed the gap from 3000yds to 2860yds.
At 1:26, we assume the TBM is at a constant speed of 255mph and the A6M2 is at a constant speed of 271mph. This gives us a speed differential of 16mph, or 7.82 yds/second. We simply divide the remaining distance of 2860 by 7.82yds/s to give us the time, in seconds, it will take for the A6M2 to close the gap. The answer is 365s, or 6.08 minutes.
Were the initial distance 2000yds, the A6M2 would take 3.95 minutes to close the gap. Were it 1500yds, it would take 2.9 minutes.
The TBM's speed is in no way negligible, and if any CAP is present, their job is very, very, VERY easy. Much easier than if we had a TBD, capable of less than 200mph at sea level, and only 202mph at 7k.
Hell, at 7k, the difference in speed for the TBM and TBD is even larger, meaning that the TBM makes an even more unrealistic target at 7k than it does on the deck.
Now I accept your reasoning for using the TBM, but do not dismiss the speed difference as insignificant, or easily overcome by simple pilot skill. This isn't a dogfight, we're simply comparing the time it takes to chase them down, which is 100% quantifiable, and therefore directly comparable.