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Jack Ridley

From Wikipedia, the free encyclopedia

Jackie L. "Jack" Ridley (June 16, 1915 – March 12, 1957) was a colonel in the United States Air Force and a noted test pilot who came to public attention through his frequent affiliation with Chuck Yeager.

Ridley received his Bachelor of Science in mechanical engineering from the University of Oklahoma in 1939 and his Master's degree in aerospace engineering from the California Institute of Technology in 1945. Having served in the army before graduate school, he was assigned to the Flight Test Division at Wright Field and attended Experimental Test Pilot School from January through May 1946. Ridley was then assigned to the XS-1 project as a test pilot and project officer at Muroc Army Air Field, where he remained until May 1948. Fifteen months later, he was permanently assigned as chief of the Flight Test Engineering Laboratory at Edwards Air Force Base.

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[edit] Early life

Jack Ridley was born in Garvin, Oklahoma, not long after the aeroplane had made its first hesitant appearance on the world's stage. At that time, the warring powers in Europe were still uncertain about the role which their awkward flying machines would play on the field of war. Even that early, however, the U.S. Army was deep in plans to set up its own aeronautical engineering laboratory at McCook Field at Dayton, Ohio, and by 1918 it had begun systematic research and development of the fledgling weapon of war. Ridley was destined to leave an indelible mark on the newly emerging science of aeronautical testing.

[edit] From School to Army

In school, the young Oklahoman had a natural taste for mathematics and even in early life he showed an unmistakable aptitude for studying and analyzing the way that machines worked. Following high school, he entered the ROTC. program at the University of Oklahoma where he received his bachelor of science degree in mechanical engineering in 1939. The world into which he graduated was uncertain, at best. Europe was a field of battle once again; Hitler's blitzkrieg on Poland was about to teach the world a new concept of war, and England and France were to declare war on Germany before the end of the year. By the summer of 1941, the Battle of Britain had been fought and the United States was desperately building up its long-neglected armed forces to prepare for the world conflict which many thought was inevitable. In July of that year, the young engineer received a commission in the U.S. Army field artillery and began a military career, which would continue for the rest of his life. The science of flight soon attracted him, however, and it was not long before he transferred to the Army Air Forces. Lieutenant Ridley was sent to the Flying Training School at Kelly Army Air Base in Texas, where he earned his pilot wings in May 1942.

[edit] Into the Cockpit

The Air Corps had great need for engineering-trained pilots and, instead of being sent into an operational combat unit, Ridley was ordered to the Consolidated Vultee plant in Fort Worth, Texas, where his initial assignment was to conduct acceptance tests on four-engine B-24 Liberator bombers. Soon thereafter, he was named as engineering liaison officer on both the B-24 and B-32 programs. Even at that early date, the Air Corps was developing the mighty six-engine B-36 intercontinental bomber, later to become the mainstay of the postwar Strategic Air Command, and Ridley found himself assigned to that program as well.

Two years later, after the tide of battle had turned to the Allies' favor, Ridley was sent off to add education to his experience. The technological revolution spawned by the war had demonstrated that the postwar Air Force's success would be dependent upon having a corps of officers with first-rate technical training. After attending the Army Air Forces School of Engineering at Wright Field (later renamed the Air Force Institute of Technology), Ridley was sent to the California Institute of Technology, in Pasadena, California where he received his Master of Science degree in aeronautical engineering in July 1945.

With the war virtually over, the young officer was sent to Wright Field, Ohio, and assigned to the Air Materiel Command's Flight Test Division. The conflict just ending had seen the greatest advances in the history of aeronautics: the piston engine reached its peak of development, jet propulsion was overturning all previous concepts of airplane design, and planes were flying higher and faster than ever before. The scientific and engineering staff at Wright Field had played a pivotal role in all of these developments and, clearly, this was the supreme location for an ambitious young would-be engineering test pilot. The science of training test pilots had been advancing as well, however, and before he could be put to work Ridley had to go through the Air Materiel Command Flight Performance School. In the spring of 1946, he graduated with Class 46A.

[edit] The Supersonic Team

The long years of preparation would soon pay off handsomely. Even as Ridley was attending the Flight Performance School, the revolutionary X-1 rocket research airplane was making its initial unpowered check flights and, within a year, the AAF (soon to achieve independence as the United States Air Force) would assume control of the supersonic research program. Col. Albert Boyd, the legendary chief of the Flight Test Division, had the critical responsibility for selecting the project team that would attempt the world's first supersonic flight. In the spring of 1947, Boyd appraised his roster of 125 test pilots and finally selected three volunteers who were considered very junior in terms of their flight test experience: Capt. Charles E. "Chuck" Yeager, 1st Lt. Robert A. "Bob" Hoover, and Ridley. He named Yeager and Hoover as primary and backup pilot respectively, and Ridley as project engineer. Boyd realized that Ridley's laid back demeanor and Oklahoma drawl masked a highly disciplined, razor sharp mind and he believed that, with his test piloting experience and his unique ability to translate esoteric concepts into everyday terms, he would be able to provide Yeager and Hoover with all of the engineering expertise they would need.

The choice was a happy one. As Yeager later explained:

"Well, ... Hoover and I were definitely not flight test engineers! We could fly airplanes and we had an instinct for aerodynamics ... but Jack Ridley ... was a brain! Jack Ridley knew everything there was to know about aerodynamics and he was practical. And, besides, he was a good pilot ... and he fit right in with us. He spoke our language. Bob was a Tennessean and I was a West Virginian and, being an Okie, Jack spoke real good language for us."

"Even before we flew the X-1, I talked to him at great length about ‘what are we getting into? You know, what's it mean? We're going to be fooling around out of my realm…and you may understand this stuff but I don't. What the hell are we getting into?' And Jack would patiently explain. And I had a great deal of confidence in him and, you know, if he said something, that, to me, was from the Bible. You could take it to the bank."

Ridley's task was to analyze all of the technical data that was generated during the X-1 flights as it proceeded toward the unexplored region of supersonic flight. Studying the phenomena that the research plane encountered as it passed through the transonic region, he translated all of the information into pilot terminology for Yeager so that the flight program could be carried forward expeditiously, yet with safety. As Yeager later explained:

"I trusted Jack with my life. He was the only person on earth who could have kept me from flying the X-1. As committed as I was to the program, and with all that was riding on these flights, if Jack had said, 'Chuck, if you fly in that thing, you're not gonna make it,' that would have been it for yours truly."

First and foremost, he was a problem solver, well able to deal with unexpected situations as well as new aerodynamic principles. One such problem was a complete loss of elevator effectiveness which Yeager experienced during his eighth powered flight as his Mach meter indicated a speed of Mach 0.94 (his true airspeed was in the range of 0.96-0.99 Mach, just below the speed of sound). At that speed, the little research plane stopped responding to all elevator control inputs, leaving the pilot unable to change his pitch angle, or to raise or lower the plane's nose in flight. When speed decreased slightly, the problem abruptly disappeared. Analysis suggested that a shockwave was forming along the elevator's hinge line, leaving it ineffective. Ridley determined in that speed range, the elevator itself could safely be dispensed with and the X-1's entire horizontal stabilizer, which could be adjusted for trim changes, be used for pitch control. The idea worked, and Ridley's concept eventually came to be incorporated in all supersonic aircraft — the "flying tail."

For all of his technical accomplishments during the high speed research program, however, the youthful-appearing engineer is most fondly remembered by the team for improvising a vital piece of equipment at the last minute. Two days before taking the X-1 on its first supersonic flight, Chuck Yeager broke two ribs in a horseback riding accident. With the aid of an understanding civilian doctor, he was able to conceal his condition from everyone but Ridley. Without the full use of his right arm, however, it would be impossible to seal himself into the tiny X-1 cockpit. With great common sense, Ridley quietly provided a length of broom handle which saved the day. Using the leverage provided by the broom handle, Yeager closed the hatch without difficulty.

The soft-spoken Oklahoman's personality and dry wit, as well as his formal training, made him a perfect complement to Yeager throughout the program. If Yeager was a superb "intuitive engineer," able to identify the cause of any unexpected event in the air, Ridley was equally gifted in his computational and reasoning abilities. Indeed, Yeager often called him "the brains behind the whole X-1 test program." All three team members meshed well together. All were pragmatic, hands-on types with an instinct to ferret out a straightforward, practical solution to each problem as soon as it arose. The result was an energetic team of young professionals who fulfilled Colonel Boyd's most exacting expectations and, on 14 October 1947, led the world into the supersonic age. The Air Force recognized his efforts three years later by awarding him the Commendation Ribbon for meritorious achievement.

[edit] To New Horizons

Ridley worked on the X-1 project until May 1948, when he was sent to the state of Washington for temporary assignment to the XB-47 program. The swept-wing Stratojet, powered by six J-47 turbojet engines and capable of high subsonic speeds, was in its way as revolutionary as the X-1 had been. His expertise proved instrumental in bringing the revolutionary jet bomber to operational status with the Strategic Air Command. A year later, the flight test engineer was permanently assigned to Muroc (soon to be renamed Edwards) Air Force Base where he remained, with interruptions, until 1956.

[edit] … And Back to Edwards

Returning to the high desert, he applied his razor-sharp reasoning skills to many of the new generation of jet and rocket aircraft then arriving on the ramp: the delta-winged XF-92A, the F-84F Thunderstreak, and the nation's new heavyweight bomber, the B-52. He worked on the entire family of Air Force research airplanes from the X-1 through the variable-sweep wing X-5. His responsibilities included planning flight test programs for various aircraft, identifying the stability characteristics and gathering the performance data which would later be used in writing Pilots Operating Handbooks and compiling standard aircraft characteristic charts.

Very often, Ridley could see a simple and practical solution to a seemingly complex problem. One such was a problem with over-sensitive controls on the F-86E Sabre, which was still unsolved after several test flights. Waiting until night had fallen, Ridley led a team of engineers into a darkened hangar. There, he placed a flashlight on the horizontal tail and climbed into the cockpit. The flashlight beam, moving across the hangar door in response to his control inputs, easily revealed a lag problem, which could soon be corrected.

He never really turned off the computational portion of his mind, even when he was absorbed in other work. One evening found him deep in conversation at the officers club, planning the engineering aspects of an upcoming test series with the project pilot for the XF-91 rocket-assisted fighter program. Four master's degree hopefuls from MIT were seated at a nearby table, fretting at their inability to solve a complex problem which they had been assigned. Never breaking the thread of his own conversation, Ridley abruptly handed the students a notepad he had been scribbling on: "Would this help you any?" Cries of joy followed by hearty thumps on his back acknowledged his ingenious solution to their dilemma.

From project engineer, he was selected to be chief of the Test Engineering Branch. From this post he was subsequently promoted to Chief, Flight Test Engineering Laboratory. The responsibility of this division-level organization was to carry out the research and engineering phases of all of the experimental flight test programs assigned to the AFFTC, including overseeing such details as the human factors program and overseeing the weighing and balancing of aircraft. Ridley's new organization included separate branches for Data Reduction, Performance Engineering and Flight Research. It was in this post that he made his longest-lasting contributions to the science of flight testing.

Working with the Flight Test Center's Technical Director, Paul Bikle, he defined the basic flight test techniques that are still used by the Air Force Flight Test Center. Aiming to reduce the increasing length of time and costs required to determine the results of the Center's flight tests, they standardized all of its data acquisition methods and set up a centralized Data Processing System. This made it possible for test teams to analyze their test data more rapidly, and to publish their Technical Reports more quickly. He also established training and indoctrination procedures for new military and civilian flight test engineers. Impressing his own long-thought-out ideals upon these changes and goals, Jack Ridley is still credited for creating the Flight Test Center's basic philosophy in use today.

[edit] Beyond the Desert

By this point in his career, his professional reputation had already spread far afield. Dr. Theodore Von Karman, Chairman of the Advisory Group for Aeronautical Research and Development (AGARD), nominated the young lieutenant colonel to represent the United States on its Flight Test Techniques Panel. This appointment was a signal honor. AGARD, a Standing Group of the North Atlantic Treaty Organization (NATO) had been created to bring together the leading aeronautical experts from each of the member nations to find ways to use aviation research and development personnel and facilities for the common benefit of the member nations. Ridley served in this prestigious position from 1952 until 1956.

Still youthful, Ridley was promoted to full colonel in 1956 and became a member of the U.S. Military Assistance Advisory Group. Then, flying as a passenger in a C-47 over Japan on March 12, 1957, Col. Ridley died at the age of 42 when the transport crashed into a snow-covered mountainside northwest of Tokyo.

In 1980, the Ridley Mission Control Center at Edwards Air Force Base was dedicated in Jack Ridley's honor.

Ridley was portrayed (albeit beyond the time of his death) by Levon Helm in the 1983 film The Right Stuff.

In 1996, Ridley was inducted into the Aerospace Walk of Honor.

In 2003, Ridley was inducted into the National Aviation Hall of Fame in Dayton, Ohio. Gen. Yeager was the presenter.

[edit] References

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