Anti your facts are so far off I guess you didn't research it.
Radar:
Nikola Tesla, in August 1917, proposed principles regarding frequency and power levels for primitive radar units. In the 1917 The Electrical Experimenter, Tesla stated the principles in detail:
"For instance, by their [standing electromagnetic waves] use we may produce at will, from a sending station, an electrical effect in any particular region of the globe; [with which] we may determine the relative position or course of a moving object, such as a vessel at sea, the distance traversed by the same, or its speed."
Tesla also proposed the use of these standing electromagnetic waves along with pulsed reflected surface waves to determine the relative position, speed, and course of a moving object and other modern concepts of radar.
Tesla became a US citizen in 1891 and lived and worked the rest of his life in the US
Naval Research Laboratory
In the autumn of 1922, Albert H. Taylor and Leo C. Young of the U.S. Naval Research Laboratory (NRL) were conducting communication experiments when they noticed that a wooden ship in the Potomac River was interfering with their signals; in effect, they had demonstrated the first continuous wave (CW) interference radar with separated transmitting and receiving antennas. In June, 1930, Lawrence A. Hyland of the NRL in the U.S. detected an airplane with this type of radar operating on 33 MHz.
After early U.S. work on radar conducted in the twenties at the Naval Research Laboratories, the success of Robert Page's pulsed radar experiment in 1934 redirected the attention of the Signal Corps, who had been focusing more on use of sound and heat to detect aircraft. Expertise in radio equipment design by the signal corps led to rapid development of an early type of VHF radar at Fort Monmouth and Camp Evans in New Jersey for use with coastal artillery .
Radar arrangement on the aircraft carrier Lexington, 1944 By 1940 when the British and US began technology exchanges, the British were surprised to learn they were not unique in their possession of practical pulse radar technology. The U.S. Navy's pulse radar system, the CXAM radar was found to be very similar in capability to their Chain Home technology.
As clearly shown Radar research started in the US well before and independtly from Great Britian. Also note early research was done by the US Navy. Then you grossly understated Raytheons contributions to Radar research and development which continues still today. Also another company didn't develope the Microwave oven, Raytheon bought a refridgerator company and sold the Microwave oven, that they developed under that brand name
At war's end in 1945 the company was responsible for about 80 percent of all magnetrons manufactured. During the war Raytheon also pioneered the production of shipboard radar systems, particularly for submarine detection.
Raytheon's research on the magnetron tube revealed the potential of microwaves to cook food. In 1945 Raytheon's Percy Spencer invented the microwave oven by discovering that the magnetron could rapidly heat food. In 1947 the company demonstrated the Radarange microwave oven for commercial use.
Raytheon is a developer and manufacturer of radars (including AESAs), electro-optical sensors, and other advanced electronics systems for airborne, naval and ground based military applications.
In 1965 it acquired Amana Refrigeration, Inc., a manufacturer of refrigerators and air conditioners. Using the Amana brand name and its distribution channels, Raytheon began selling the first countertop household microwave oven in 1967 and became a dominant manufacturer in the microwave oven business.
US based manufacturers of the AESA radars used in the F22 and Super Hornet include Northrop Grumman[1] and Raytheon.[2] These companies also design, develop and manufacture the transmit/receive modules which comprise the 'building blocks' of an AESA radar. The requisite electronics technology was developed in-house via Department of Defense research programs such as MIMIC Program.[3][4]
http://en.wikipedia.org/wiki/Active_Ele ... nned_Array
It's fine to have pride in your UK heritage but don't reach for what you don't have.
Computers:
ENIAC, short for Electronic Numerical Integrator And Computer,[1][2] was the first general-purpose electronic computer. It was the first Turing-complete, digital computer capable of being reprogrammed to solve a full range of computing problems,[3] although earlier machines had been built with some of these properties. ENIAC was designed and built to calculate artillery firing tables for the U.S. Army's Ballistic Research Laboratory.
There was devices before it but not a computer. What was used by the British was even classified by Alan Turing himself as not a computer and he invented it. Also this device that Turing built was still military driven since the Enigma machines were used by the German Military.
Colossus was the first totally electronic computing device. The Colossus used a large number of valves (vacuum tubes). It had paper-tape input and was capable of being configured to perform a variety of boolean logical operations on its data, but it was not Turing-complete
http://en.wikipedia.org/wiki/ENIAC
http://en.wikipedia.org/wiki/History_of ... g_hardware
There is only one competitor to Eniac in 1939:
1939: John J. Atanasoff designs a prototype for the ABC (Atanasoff-Berry Computer) with the help of graduate student Clifford Berry at Iowa State College. In 1973 a judge ruled it the first automatic digital computer.
http://www.cyberstreet.com/hcs/museum/chron.htm
There is debate if the ABC is Turing Complete.
Turing completeness
A computational system that can compute every Turing-computable function is called Turing-complete (or Turing-powerful). Alternatively, such a system is one that can simulate a universal Turing machine.
http://en.wikipedia.org/wiki/Turing_complete
Airplanes:
You seem to conviently overlook the time between the Wrights first flight and the 1920's when aerial racing became popular. Prior to WWI Racing wasn't big and what was done was all centered on speed nothing else. WWI was were the real developement happened. Stunt Work? Hello just like I said a curiosity it was not taken seriously outside of the US Postal service and the Worlds militaries.
About ten years after the Wright brothers made the first powered flight, there was still much to be improved upon. Because of limitations of the engine power of the time, the effective payload of aircraft was extremely limited
In 1911, Captain Bertram Dickson, the first British military officer to fly, also correctly prophesied the military use of aircraft. He predicted aircraft would first be used for reconnaissance, but this would develop into each side trying to "hinder or prevent the enemy from obtaining information", which would eventually turn into a battle for control of the skies. This is exactly the sequence of events that would occur several years later.[1]
The first operational use of aircraft in war took place on 23 October 1911 in the Italo-Turkish War, when Captain Carlo Piazza made history’s first reconnaissance flight near Benghazi in a Blériot XI.
http://en.wikipedia.org/wiki/World_War_I_Aviation
[edit] First performances steps under World War I (1914 - 1918)
Main article: World War I Aviation
German Taube monoplane, illustration from 1917Almost as soon as they were invented, planes were drafted for military service.
http://en.wikipedia.org/wiki/Aviation_h ... orld_War_I
All of the major forces in Europe had light aircraft, typically derived from pre-war sporting designs, attached to their reconnaissance departments.
useful load. First aircrafts were single seated, with just sufficient load for pilote and some fuel. While early efforts were hampered by the light loads carried, improved two-seat designs soon appeared that were entirely practical. At the end of the war, there was bombers and long range aircrafts.
Range and speed progression. To be developped.
Before blaming the Vietnam war for the cancelation of the Saturn V maybe you should look at Johnson's "Great Society". The Vietnam war ended in 1973 the Great Society continued. Example of this was that the welfare system Johnson invented has costed over 6 trillion dollars alone unill ended in 1995. Everyone loves to look at the military when it comes to the US Budget and true as a single line item it is the largest single item, however The Great Society was spread over multiple line items in the budget and far outstripped Military spending. Johnson deliberatly mislead congress and the people what the Pentagon was telling him in 1965. He also kept the Military advisors away from his domestic advisors. In 1965 the Pentagon told him to reach a stalemate in Vietnam it would take 500,000 troops. Johnson deliberately from there did not tell the public that or congress because he didn't want any reduction on his Great Society that he pushed through in 1964. Johnson tried to do the Vietnam war on the cheap, in 1967-68 the military almost went broke because Johnson was sure the war in Vietnam would be over by christmas. They had to pass stop gap spending to cover the cost but Great Society kept right on rolling. After the war the military budget took a hit so there should have been money for space then by your theory but there wasn't it went to more Great Society spending.
E=MC2 is not research it is a mathmatical formula that was part of a theory. Research is what you do to prove a theory. Tying E=MC2 to the atomic bomb is tenous at best.
While E=mc2 is useful for understanding the amount of energy released in a fission reaction, it was not strictly necessary to develop the weapon. As the physicist and Manhattan Project participant Robert Serber put it: "Somehow the popular notion took hold long ago that Einstein's theory of relativity, in particular his famous equation E=mc2, plays some essential role in the theory of fission. Albert Einstein had a part in alerting the United States government to the possibility of building an atomic bomb, but his theory of relativity is not required in discussing fission. The theory of fission is what physicists call a non-relativistic theory, meaning that relativistic effects are too small to affect the dynamics of the fission process significantly."[54] However the association between E=mc2 and nuclear energy has since stuck, and because of this association, and its simple expression of the ideas of Albert Einstein himself, it has become "the world's most famous equation".
http://en.wikipedia.org/wiki/Mass-energy_equivalence