Hugh Latimer Dryden Explained

Hugh Dryden
Birth Place:Pocomoke City, Maryland
Death Place:Washington, D.C.
Party:Republican
Module:
Embed:yes
Alma Mater:Johns Hopkins University
Thesis Title:Air forces on circular cylinders, axes normal to the wind, with special reference to the law of dynamical similarity
Thesis Url:https://search.proquest.com/docview/301738006/
Thesis Year:1919
Known For:NASA
Field:Aeronautics

Hugh Latimer Dryden (July 2, 1898 – December 2, 1965) was an American aeronautical scientist and civil servant. He served as NASA Deputy Administrator from August 19, 1958, until his death.

Biography

Early life and education

Dryden was born in Pocomoke City, Maryland, the son of Samuel Isaac and Nova Hill Culver Dryden, and was named after a popular local Methodist clergyman. During the financial panic of 1907, his father lost his job and the family moved to Baltimore, Maryland.

As a student, Dryden excelled in mathematics. He graduated from Baltimore City College, a high school, at the age of 14, and was the youngest student ever to graduate from that school. He was awarded the Peabody Prize for excellence in mathematics. With a scholarship, he was admitted to Johns Hopkins University and graduated with honors after only three years. He earned a M.S. in physics in 1916. His thesis was titled, "Airplanes: An Introduction to the Physical Principles Embodied in their Use."[1]

Career

In 1918, Dryden joined the National Bureau of Standards, becoming an inspector of gauges. With the help and influence of Dr. Joseph S. Ames, he obtained a transfer to the bureau's Wind Tunnel division, and began taking graduate courses in fluid dynamics to complete his Ph.D. In 1919 at the age of 20, he was awarded his degree in physics and mathematics from Johns Hopkins University, the youngest person ever to have received a doctorate from that institution. His thesis was on the "Air Forces on Circular Cylinders".[2]

In 1920 Dryden was appointed the director of the Aerodynamics Division of the National Bureau of Standards, a newly created section. Collaborating with Dr. Lyman J. Briggs, he performed studies of airfoils near the speed of sound. He also performed pioneering aerodynamics research on the problems of airflow, turbulence, and especially the boundary layer phenomenon.[3] His work contributed to the design of the wings for the P-51 Mustang, as well as other aircraft designed during World War II.

By 1934, Dryden was appointed the bureau's Chief of the Mechanics and Sound Division, and in 1939 he became a member of the National Advisory Committee for Aeronautics (NACA).

With the start of World War II, Dryden served in an advisory capacity to the Air Force. He led the development of the "Bat", a radar-homing guided bomb program that was successfully employed in combat in April, 1945 to sink a Japanese destroyer.

After the war, Dryden became the Director of Aeronautical Research for the National Advisory Committee for Aeronautics (NACA) in 1946. While at the NACA he supervised the development of the North American X-15, a rocket plane used for research and testing. He also established programs for V/STOL aircraft, and studied the problem of atmospheric reentry.

He held the position of Director of NACA, NASA's predecessor, from 1947 until October 1958. In addition he served on numerous government advisory committees, including the Scientific Advisory Committee to the President. From 1941 until 1956 he was editor of the Journal of the Institute of the Aeronautical Sciences. After NACA became NASA, he became the deputy director of that organization, serving until his death.

After John Glenn's orbital flight, an exchange of letters between President John F. Kennedy and Soviet Premiere Nikita Khrushchev led to a series of discussions led by Dryden and Soviet scientist Anatoli Blagonravov. Their talks in 1962 led to the Dryden-Blagonravov agreement, which was formalized in October of that year, the same time the two countries were in the midst of the Cuban Missile Crisis. The agreement was formally announced at the United Nations on December 5, 1962. It called for cooperation on the exchange of data from weather satellites, a study of the Earth's magnetic field, and joint tracking of the U.S. Echo II balloon satellite.[4] Unfortunately, as the competition between the two nation's crewed space programs heated up, efforts to further cooperation at that point came to an end. They would be revived in 1969 by NASA Administrator Thomas O. Paine and led to the 1975 Apollo-Soyuz Test Project.[5]

Death and legacy

He died from cancer on December 2, 1965.

Michael Gorn, chief historian at NASA Dryden Flight Research Center (now: NASA Neil A. Armstrong Flight Research Center (AFRC)), described Dryden as a quiet, reserved man who was self-effacing and diligent. He was patient, a good teacher, and effective when collaborating with others. He was also a devout Methodist, who, as a result, had a dislike of self-promotion. He served as a lay minister for his entire adult life. He was married to Mary Libbie Travers, and the couple had four children.

Tom Wolfe credited Dryden with having been the individual who spoke up, with President John F. Kennedy in April, 1961, and suggested that crewed flight to the Moon was the way to "catch up" with the Soviets in the space race. Wolfe describes President Kennedy as having been in "a terrible funk" at the time of the meeting with James E. Webb, the NASA administrator, and Dryden, his deputy, as the president wrestled with the string of Soviet "firsts" in space flight which had started with Sputnik 1 in 1957 and, that month in 1961, had extended to include Yuri Gagarin's Earth-orbital flight[6] . Within a month of the meeting with Webb and Dryden, President Kennedy announced the Apollo Project-scale goal of putting a man on the Moon within 10 years, the goal that Apollo 11 was ultimately to meet. In setting the goal, the president did not credit Dryden's input, according to Wolfe.[7]

Dryden is also a founding member of the National Academy of Engineering.[8]

Dryden was portrayed by George Bartenieff in the 1998 TV miniseries From the Earth to the Moon.

Bibliography

Dryden published over a hundred papers and articles.

Awards and honors

References

External links

Notes and References

  1. Airplanes: an introduction to the physical principles embodied in their use . 1916 . . M.S. . Dryden . Hugh Latimer . 30460745.
  2. Air forces on circular cylinders, axes normal to the wind, with special reference to the law of dynamical similarity . 1919 . . Ph.D. . Dryden . Hugh Latimer . . subscription. 30460743.
  3. Kuethe . A M . The First Turbulence Measurements: A Tribute to Hugh L. Dryden . Annual Review of Fluid Mechanics . January 1988 . 20 . 1 . 1–4 . 10.1146/annurev.fl.20.010188.000245 . 1988AnRFM..20....1K . 23 February 2023 . en . 0066-4189.
  4. Web site: The First Dryden-Blagonravov Agreement - 1962 . NASA History Series . NASA . 14 March 2019.
  5. Web site: SP-4209 The Partnership: A History of the Apollo-Soyuz Test Project . NASA History Series . NASA . 14 March 2019.
  6. Wolfe, Tom (1979) The Right Stuff (Farrar Straus Giroux, New York), p. 271
  7. https://www.nytimes.com/2009/07/19/opinion/19wolfe.html?pagewanted=1 "One Giant Leap to Nowhere"
  8. Web site: Founding members of the National Academy of Engineering . . .
  9. Web site: Hugh L. Dryden . 2023-02-22 . www.nasonline.org.
  10. Web site: APS Member History . 2023-02-22 . search.amphilsoc.org.
  11. Web site: Hugh Latimer Dryden . 2023-02-22 . American Academy of Arts & Sciences . 9 February 2023 . en.
  12. https://www.nsf.gov/od/nms/recip_details.cfm?recip_id=113 National Science Foundation - The President's National Medal of Science
  13. News: Space Pioneers Enshrined. Locke. Robert. Associated Press. Las Vegas Optic. Las Vegas, New Mexico. October 6, 1976. 6. Newspapers.com.
  14. Sprekelmeyer, Linda, editor. These We Honor: The International Aerospace Hall of Fame. Donning Co. Publishers, 2006. .
  15. https://purl.fdlp.gov/GPO/gpo46206 An Act to Redesignate the Dryden Flight Research Center as the Neil A. Armstrong Flight Research Center and the Western Aeronautical Test Range as the Hugh L. Dryden Aeronautical Test Range