I forgot the point I was trying to make while giving the background!
It's not that the engineers of yesteryear were brilliant while today's engineers are second-rate: it's that what they were doing back then was in some respects easier. (And we remember the good planes: as often as not they invented utter turkeys: look at the history of the Supermarine Scimitar for example — https://en.wikipedia.org/wiki/Supermarine_Scimitar — TLDR: yes, it's military, but to lose 51% of your aircraft in 9 years of peacetime service takes some doing. And then compare with the F-35, two crashes out of 308 airframes in service over a 5 year period, even though it's a vastly more complicated and higher performance aircraft.)
And more equally distributed ones: there are not many easy solutions anymore that are pareto improvements, ie do not have downsides elsewhere.
For example, the door to the cockpit is locked now to keep terrorists out - which allows a suicidal co-pilot to fly the machine into a mountain undisturbed. (Having said that, a suicidal pilot can take down the machine one way or the other, so maybe locking the doors was a pareto improvement.)
It's not that the engineers of yesteryear were brilliant while today's engineers are second-rate: it's that what they were doing back then was in some respects easier. (And we remember the good planes: as often as not they invented utter turkeys: look at the history of the Supermarine Scimitar for example — https://en.wikipedia.org/wiki/Supermarine_Scimitar — TLDR: yes, it's military, but to lose 51% of your aircraft in 9 years of peacetime service takes some doing. And then compare with the F-35, two crashes out of 308 airframes in service over a 5 year period, even though it's a vastly more complicated and higher performance aircraft.)