Celebrations Today – December 17

Holidays and observances

• Christian feast day:
  • Daniel the Prophet
  • Josep Manyanet i Vives
  • Lazarus of Bethany (local commemoration in Cuba)
  • O antiphon (Catholic Church)
  • Olympias the Deaconess
  • Wivina
  • Sturm
  • December 17 (Eastern Orthodox liturgics)
• Accession Day (Bahrain)
• International Day to End Violence Against Sex Workers
• Kurdish flag day (Global Kurdish population)
• National Day (Bhutan)
• Pan American Aviation Day (United States)
• Wright Brothers Day, a United States federal observance by Presidential proclamation

Celebrations Today – USA: December 17

National Maple Syrup Day
Wright Brothers Day
Pan American Aviation Day

Today in US History: December 17

First Flight

First Flight, December 17, 1903,
John T. Daniels, photographer,
Prints & Photographs Division,
American Treasures of the Library of Congress

On the morning of December 17, 1903, Wilbur and Orville Wright took turns piloting and monitoring their flying machine in Kill Devil Hills, North Carolina. Orville piloted the first flight that lasted just 12 seconds and 120 feet. On the fourth and final flight of the day, Wilbur traveled 852 feet, remaining airborne for 59 seconds. That morning, the brothers became the first people to demonstrate sustained flight of a heavier-than-air machine under the complete control of the pilot.

They built their 1903 glider in sections in the back room of their Dayton, Ohio, bicycle shop. That afternoon, the Wright brothers walked the four miles to Kitty Hawk and sent a telegram to their father, Bishop Milton Wright, back home in Dayton:

Success four flights thursday morning all against twenty one mile wind started from level with engine power alone average speed through air thirty one miles longest 57 seconds inform Press home Christmas.Telegram, Orville Wright to Bishop Milton Wright, announcing the first successful powered flight, December 17, 1903.
Words and Deeds in American History: Selected Documents Celebrating the Manuscript Division’s First 100 Years

Through their own research and experimentation, and by studying the attempts of other would-be pilots, the Wright brothers knew that heavier-than-air flight was possible. They corresponded frequently with engineer Octave Chanute, a friend and supporter of their work. On May 13, 1900, Wilbur wrote a letter to Chanute expressing his ambition to fly:

For some years, I have been afflicted with the belief that flight is possible to man. My disease has increased in severity and I feel that it will soon cost me an increased amount of money if not my life.Letter, Wilbur Wright to Octave Chanute, concerning the Wright brothers’ aviation experiments, May 13, 1900. Octave Chanute Papers.
Words and Deeds in American History: Selected Documents Celebrating the Manuscript Division’s First 100 Years

Wilbur and Orville Wright with their Second Powered Machine,
Huffman Prairie, Dayton Ohio,
May 1904.
Glass Negatives from the Papers of Wilbur and Orville Wright, Prints & Photographs Online Catalog

The U.S. Army saw potential in the new technology and signed a contract with the Wright brothers in 1908. Their new Military Flyer was successfully tested in 1909. The Library of Congress is rich in resources on flight.

See The Wilbur and Orville Wright Papers at the Library of Congress for a look at digital images that document the lives of the Wright brothers including correspondence, scrapbooks, drawings, and their own collection of glass-plate photographic negatives.

The Octave Chanute Papers reside in the Library of Congress. View the finding aid for more information on this collection in the Manuscript Division.

Read Alexander Graham Bell’s June 26, 1906, letter to Mabel Hubbard Bell on “the flying machine of the Wright Brothers of Dayton Ohio.”

See artifacts of America’s history of flight in the Library of Congress’ exhibitions:

• Search on aviation in the collection Words and Deeds in American History: Selected Documents Celebrating the Manuscript Division’s First 100 Years to read related documents.
• American Memory collections have numerous images of airplanes–ranging from early planes to World War II aircraft. Search, for example:
  • Taking the Long View: Panoramic Photographs, 1851-1991
  • Architecture and Interior Design for 20th Century America: Photographs by Samuel Gottscho and William Schleisner, 1935-1955
  • Photographs from the Chicago Daily News
  • America from the Great Depression to World War II: Photographs from the FSA and OWI, ca. 1935-1945
  • Touring Turn-of-the-Century America: Photographs from the Detroit Publishing Company, 1880-1920 holds many views of Dayton that were taken during the years that the Wright brothers resided there.
• Learn more about one of Orville Wright’s high school friends, the poet Paul Laurence Dunbar.
• Read Americans’ stories of flying by searching on airplane in the collection American Life Histories: Manuscripts from the Federal Writers’ Project, 1936 – 1940. See, for example, the 1939 interview “An Air-Minded Family” in which Mrs. Edwards describes her family’s obsession with planes sparked by her husband’s passion for flying.
• Search on airplane or flight in the Prints & Photographs Online Catalog for a wealth of images.

Willard Frank Libby and the Radiocarbon Revolution

On December 17, 1908, Willard Frank Libby was born on a farm in Grand Valley, Colorado. Libby, a physical chemist, won the 1960 Nobel Prize in Chemistry for his development of the technique known as radiocarbon dating. This technique uses the decay of an unstable isotope of carbon, radioactive carbon-14 (C14), to determine the age of organic materials—anything composed of matter that was once living. Carbon-datable items, generally ranging from a few hundred to 60,000 years old, can be as varied as the sole of an ancient sandal, glacial ice cores, the Dead Sea Scrolls, or mummies from an Egyptian pharaoh’s tomb. Radiocarbon dating has had such a profound impact on many branches of the human sciences—including archaeology, geology, history, geophysics, and preservation—that its discovery has been called “the radiocarbon revolution.”

Sandal A, 1st century B.C.E.-1st century C.E.
Scrolls From the Dead Sea: The Ancient Library of Qumran and Modern Scholarship

St. Vrain Glacier, Colorado,
Ed Tangen, photographer, 1921,
Panoramic Photographs: Taking the Long View, 1851-1991

By the 1940s, researchers already knew that when cosmic radiation enters the earth’s upper atmosphere it collides with the gasses present there to produce neutron showers. They also knew that a few of these free-floating neutrons are in turn absorbed by nitrogen atoms, which in the process are transformed into C14 (the more common isotope is carbon-12). C14 is unstable and will decay back to nitrogen over time—the emission of beta particles during this second transformation is the process that makes it radioactive.

Libby’s achievement was to recognize that C14 moves from the atmosphere to the biosphere through a series of additional steps:

• newly produced C14 oxidizes to form carbon dioxide (CO₂), a common component of the atmosphere;
• plants absorb carbon dioxide molecules through photosynthesis, converting the carbon atoms into sugar while releasing the oxygen back into the air;
• plants, directly or indirectly, are digested by all living organisms.

Therefore, Libby concluded, all living organisms contain a small amount of C14. But he also recognized that carbon uptake ceases when an organism dies. Because C14 decays over time, organic items that are no longer living contain increasingly smaller percentages of C14 the older they get. Libby was able to compare the amount of C14 remaining in an item to the amount originally found in the atmosphere to determine that item’s age.

The Enoch Scroll
Parchment, courtesy of the Israel Antiquities Authority,
ca. 200-150 B.C.E.
Scrolls From the Dead Sea: The Ancient Library of Qumran and Modern Scholarship

During the 1950s, Libby and others built increasingly sensitive Geiger counters to measure the radioactivity of organic objects. Age calculations were based on the half-life of C14: after 5,730 years about 50 percent of the original amount of C14 will still be present in an object. Among the items that Libby tested and successfully dated were prehistoric sloth dung, charcoal from Stonehenge, and the parchment wrappings of the Dead Sea Scrolls. Libby was able to further verify his theory by performing radiocarbon tests on items whose date was already known from other sources.

Willard Libby received a PhD in chemistry from the University of California, Berkeley, in 1933 and stayed on to teach there until joining the Manhattan Project when the U.S. entered World War II. Following the war, Libby became a professor of chemistry at the University of Chicago, where he conducted his groundbreaking research; his book Radiocarbon Dating was published in 1952. Libby was appointed by President Dwight Eisenhower to the Atomic Energy Commission in 1954. Shortly before winning the Noble Prize, he returned to teaching and research at UCLA; he died in 1980.

Jesse Younger in the Chemistry Lab. University of Nebraska, Lincoln.,
John Vachon, photographer,
May 1942.
America from the Great Depression to World War II: Photographs from the FSA-OWI, 1935-1945

With additional research, scientists have continued to refine the techniques of radiocarbon dating. In reality, C14 levels in the atmosphere have been similar, but not fully constant, over time. Changes in the magnetic fields of the earth and sun can affect the intensity of cosmic radiation, while carbon dioxide levels in the atmosphere also fluctuate naturally or due to the burning of fossil fuels. Nuclear weapons testing in the 1950s and early 1960s raised the amount of C14 in the atmosphere to a high of almost twice its natural level. To account for such fluctuations, calibration curves based in dendrochronolgy (tree ring dating) have been created, going back thousands of years.

Developed in the 1980s, accelerator mass spectrometry (AMS) is a method that separates the atoms of a sample of carbon by atomic weight.  This means that the percentage of C14 in a sample can be measured directly, rather than on the basis of radioactive decay. AMS permits the measurement of very small samples, which allows for the dating of museum and library objects without destroying them.

• Search across the American Memory pictorial collections using the terms chemistry or chemical for images such as manufacturing plants and laboratories, including the Chemical Laboratory at the House of David in Benton Harbor, Michigan.
• Built in America: Historic Building Buildings Survey/Historic American Engineering Record, 1933-Present documents a wide range of building types and engineering technologies including, for example, the Thomas A. Edison Laboratories in West Orange, New Jersey. Search the collection on chemistry and chemical for more examples.
• Visit the online exhibition Scrolls From the Dead Sea: The Ancient Library of Qumran and Modern Scholarship for a description of the scrolls and their historical context, including the Qumran community from where they may have originated, and the story of their discovery 2,000 years later. Learn more about the background of the Library’s exhibition by reading “‘Scrolls from the Dead Sea’: The Library’s Exhibition Opens” and “Conserving History: LC and IAA Join on Scrolls Project”in the Library of Congress Information Bulletin. Search the archive on Dead Sea Scrolls for additional articles.
• View Science Subject Guides on topics such as chemistry and Tracer Bullets on topics such as Science Projects in Biology—resources created by the Library’s Science, Technology & Business Division—for additional science-related information.

Today in History – December 17-External Links

Today’s Weather in History
Today in Earthquake History
This Day in Naval History
Today’s Document from the National Archives
Today’s Events, Births & Deaths –Wikipedia
Today in History by AP
On this Day -1950 to 2005 – Today’s Story–BBC
On This Day: The New York Times
This Day in History –History.com
Today in Canadian History – Canada Channel
History of Britain that took place On This Day
Russia in History –Russiapedia