Seventy-nine years ago this month, pioneering rocket scientist Robert H. Goddard and staff fired a liquid-fueled rocket to a record altitude of 7,500 feet above ground level. The record-setting flight took place at Roswell, New Mexico.
Robert Hutchings Goddard was born in Worcester, Massachusetts on Thursday, 05 October 1882. He was enamored with flight, pyrotechnics, rockets and science fiction from an early age. By the time he was 17, Goddard knew that his life’s work would combine all of these interests.
Goddard was a sickly youth, but spent his well moments as a voracious reader of all manner of science-oriented literature. He graduated in 1904 from South High School in Worcester as the valedictorian of his class. He matriculated at Worcester Polytechnic and graduated with a Bachelor of Science degree in physics in 1908. A Master of Science degree and Ph.D. from Worcester’s Clark University followed in 1910 and 1911, respectively.
Goddard spent the next eight years of his life working on numerous propulsion and rocket-related projects. Then, in 1919, he published his now-famous scientific treatise entitled A Method of Reaching Extreme Altitudes. In that paper, the press glommed on to Goddard’s passing mention that a multi-staged rocket could conceivably fly all the way to the Moon.
Goddard was roundly ridiculed for his fanciful prognostications about Moon flight. The New York Times was especially derogatory in its estimation of Goddard’s ideas and accused him of junk science. A Times editorial even criticized Goddard for his ”misconception” that a rocket could produce thrust in the vacuum of space.
Even the U.S. government largely ignored Goddard. This scornful treatment to which Goddard was subject hurt him profoundly. So much so that he spent the remainder of his life alienated from the denizens of the press as well as the dolts of governmental employ.
Despite the blow to his professional reputation, Goddard resolutely pressed on with his rocket research. Indeed, after more that five years of intense development effort, Goddard and his staff launched the first liquid-fueled rocket on Tuesday, 16 March 1926 in Auburn, Massachusetts. The flight duration was short (2.5 seconds) and the peak altitude tiny (41 feet), but Goddard proved that liquid rocket propulsion was feasible.
Goddard’s liquid-fueled rocket testing would ultimately lead him from the countryside of New England to the desert of the Great South West. With financial support from Harry Guggenheim and the public backing of Charles Lindbergh, Goddard transfered his testing activities to Roswell, New Mexico in 1930. He would continue liquid-fueled rocket testing there until May 1941.
On Friday, 31 May 1935, experimental rocket flight A-8 took to the air from Goddard’s Roswell, New Mexico test site at 1430 UTC. Roughly 15 feet in length and weighing approximately 90 pounds at lift-off, the 9-inch diameter A-8 achieved a maximum altitude of 7,500 feet (1.23 nautical miles) above the desert floor. Only a flight in March of 1937 would go higher (9,000 feet).
Robert Goddard was ultimately credited with 214 U.S. patents for his rocket development work. Only 83 were awarded in his life time. His far-reaching inventions included rocket nozzle design, regenerativley cooled rocket engines, turbopumps, thrust vector controls, gyroscopic control systems and more.
Goddard died at the age of 62 from throat cancer in Baltimore, Maryland on Friday, 10 August 1945. Many years would pass before the full import of his accomplishments was comprehended. Then, the posthumously-bestowed recognition came in torrents. In 1959, Congress issued a special gold medal in Goddard’s honor. The Goddard Spaceflight Center was so named by NASA in 1959 as well. Many more such bestowals followed.
Perhaps the most meaningful of the recognitions ever accorded Robert Hutchings Goddard occurred 24 years after his passing. It was in connection with the first manned lunar landing in July of 1969. And it was poetic not only in terms of its substance and timing, but more particularly in light of the source from whence the recognition came.
A terse statement in the New York Times corrected a long-standing injustice. It read: “Further investigation and experimentation have confirmed the findings of Issac Newton in the 17th century, and it is now definitely established that a rocket can function in a vaccum as well as in an atmosphere. The Times regrets the error.”