@221B:
Kurt,
Excellent points, I appreciate you taking the time to discuss. It is difficult, however, to assess what might have happened so there are no right or wrong answers. What if this had happened, what if they had developed that…
A couple of more points I’d really like your opinion on if you (or others) have time:
- How would the German ME262 compare to the UK built (and operational during WWII) Gloster Meteor jet in combat? What about the Horton HO-229 vs. the Meteor ? Or the US P-80?
http://en.wikipedia.org/wiki/Me262
http://en.wikipedia.org/wiki/Gloster_Meteor
http://en.wikipedia.org/wiki/Horten_Ho_229
My guess is that the Ho-229 would have ran circles around them all…but I cannot definitely say that since we don’t know what would have happened.
- The German V-2 was an incredible advance unmatched by the Allies…or was it? Consider what the American Robert Goddard developed decades before the Germans or the cold war space race between the US and USSR:
http://en.wikipedia.org/wiki/Robert_H._Goddard
Its a long read (but very well worth it), so I’ll simply quote from Werner Von Braun …
Don’t you know about your own rocket pioneer? Dr. Goddard was ahead of us all.
Wernher von Braun, when asked about Goddard’s work following World War II[84]
What if the US had invested even a small amount of money toward Goddards work (as they certainly would have had the V-2 or proposed V-3 really started affecting the Allied war effort)?
Excellent post! In response to part 1–not all jets are created equal, as you yourself noted. There were basically two ways engineers could go with jet engines. On the one hand, they could use centrifugal flow jet engines. These were comparatively simple, easily engineered, and well-understood. However, they were associated with severe technical limitations. Their other choice was to use axial flow jet engines. Engines of this type posed a significantly greater engineering challenge than did centrifugal flow jet engines. But the potential reward (in terms of performance) was also greater.
The British and American jet programs of WWII used centrifugal jet engines. That, in combination with their lack of an advanced, aerodynamic body design, meant that their jet aircraft did not exceed the best available piston aircraft during WWII.
German jets used the advanced, axial-flow jet engines. (It had taken them several years to iron out the associated difficulties.) Not only that, but they were significantly ahead of the Allies in terms of aerodynamic research.
The Horten flying wing–otherwise known as the Ho 229–was similar in both shape and concept to the U.S.'s much later, flying wing stealth bomber. (The Horten also had stealthy properties and was difficult to detect on radar.) The flying wing was the result of an effort to meet Goering’s goal of 1000/1000/1000. He’d wanted a bomber that could travel 1000 km/hr, with an operational radius of 1000 km, and which could deliver 1000 kg to its target. The flying wing shape was originally intended to help the plane meet these three goals; but which unexpectedly gave the plane a stealthy profile with respect to radar. This jet bomber was faster than any of the available Allied planes of the time–including their jet fighters–and I agree with your assessment that it would have run circles around them all. The Me 262 achieved a 5:1 kill ratio, and I don’t see why the (very fast) Horten flying wing couldn’t have done the same.
To address the second part of your post: in itself, the V2 was a fairly useless weapon–at least for delivering a conventional payload. The OP stated that the Germans were working on improving the guidance systems for V2s, such that they could be targeted at specific Allied ships, or at the centers of Allied factories, with near-certainty of getting a direct hit. He added this would have been available in 1947 (IIRC). Had the Germans been able to achieve that, the V2 would have gone from being an expensive distraction whose only real purpose was to soak up far more of the Allied bombing effort than it deserved, to a real weapon with decisive strategic importance. However, I have not yet done the research necessary to either confirm or refute the OP’s statements about this.
Another potential use for Germany’s rockets would have been to deliver either chemical or nuclear payloads. The Germans were significantly ahead of the Allies in nerve gas-related research; which means that even a small, inaccurately delivered payload would have been devastating. The three- and four-stage rockets under development would have allowed that nerve gas to be delivered to any target in the world. That same technology would also have allowed them to deliver a nuclear payload anywhere in the world, had they been able to build one.
You made a good point about Robert Goddard. He gave the U.S. an early lead in the rocket race, and the U.S. even had a nascent rocket program during WWI! He began developing a bazooka-like weapon in 1917.
Thanks to a nozzle invented by Swedish inventor Gustaf Laval, Goddard was able to increase the efficiency of his rockets from 2% to 64%. Goddard’s research was intelligent and forward-thinking, and anticipated a number of later developments in rocketry and space flight. However,
The publication of Goddard’s document gained him national attention from U.S. newspapers, most of it negative. Although Goddard’s discussion of targeting the moon was only a small part of the work as a whole and was intended as an illustration of the possibilities rather than a declaration of Goddard’s intent, the papers sensationalized his ideas to the point of misrepresentation and ridicule.
According to an editorial in New York Times, “Of course [Goddard] only seems to lack the knowledge ladled out daily in high schools.”
As a result of harsh criticism from the media and from other scientists, and understanding better than most the military applications for which foreign powers could use this technology, Goddard became increasingly suspicious of others and often worked alone, which limited the impact of his work. Another limiting factor was the lack of support from the American government, military and academia as to the study of the atmosphere, near space and military applications.
Irresponsible journalism by the New York Times and other media outlets meant that Goddard’s work was no longer seen as politically acceptable. From then on, the mainstream view was rejection and ridicule. That campaign cost Goddard much of the institutional support he might otherwise have received; and served to prevent the U.S. from developing much of a rocket program until after WWII. The reason for these media attacks was because Goddard had, in the '20s, mentioned the idea of someday flying a rocket to the Moon; and had done some preliminary calculations. All of this goes to show that one ought never to believe any statement any journalist makes about science, ever. (Unless, of course, that statement can be verified by a credible–i.e., non-journalist–source.)
As an instrument for “reaching extreme altitudes”, Goddard’s rockets were not very successful; they did not achieve an altitude greater than 2.7 km (in 1937), at a time when airplanes could reach up to 15 km and balloons 22 km. By contrast, German rocket scientists had already achieved an altitude of 3.5 km with the A-2 rocket (in 1934), reached 12 km by 1939 with the A-5 and 84 km in 1942 with the A-4 (V-2), reaching the outer limits of the atmosphere.
Goddard’s pace was slower than the Germans’ because he did not have the resources they did.
The above situation was the exact opposite of so many other forward-looking research efforts–such as computers and nuclear technology–in which the German scientists did not have the available resources of their Allied counterparts. The U.S. clearly had the spare resources to devote to Goddard’s rocket program, had it chosen to do so.
