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| Organization | Brown University | ||||||||||||||||||||||||||||||
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| Location | Providence, Rhode Island, US | ||||||||||||||||||||||||||||||
| Coordinates | 41°50′21″N71°23′57″W / 41.83913°N 71.39916°W /41.83913; -71.39916 | ||||||||||||||||||||||||||||||
| Altitude | 205 feet (62.5 m)[1] | ||||||||||||||||||||||||||||||
| Weather | See theClear Sky Chart | ||||||||||||||||||||||||||||||
| Established | October 21, 1891 (1891-10-21) | ||||||||||||||||||||||||||||||
| Website | brown.edu/ladd | ||||||||||||||||||||||||||||||
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Ladd Observatory is anastronomical observatory atBrown University inProvidence, Rhode Island.[2] Dedicated in 1891, it was primarily designed for student instruction and research.[3] The facility operated a regional timekeeping service. It was responsible for the care and calibration of clocks on campus including one at Carrie Tower[4] and another that rang the class bell atUniversity Hall. Meteorological observations were made there from the time the building opened using recording weather instruments.[5]
In addition to general astronomy courses it was also used for teaching civil engineering topics such asgeodesy.[4] Nautical science subjects, includingcelestial navigation, were taught there during theFirst World War.[6]
Ladd began a regular schedule of open nights for public viewing in 1930. This led to the creation of the Skyscrapersamateur astronomy society in 1932 which regularly met at Ladd. The Skyscrapers then acquired theSeagrave Observatory in 1936 which was then used as a meeting place. Amateur astronomers from the group continued to volunteer at Ladd and also participated in Brown Universitysolar eclipse expeditions. Members constructed aSchmidt camera for the 1937 Brown eclipse expedition.[6][7]
Ladd was added to the National Register of Historic Places in 2000.[8] It continues to be used by the Department of Physics at Brown for astronomy instruction. It is regularly open to the public as ascience center andtechnology museum. It is operated as aliving museum.
The observatory is named for benefactorHerbert W. Ladd who offered to fund the construction in the spring of 1889.[9] The building was designed by the Providence-based firm ofStone, Carpenter & Willson in theClassical Revival style.[10] The selected site was the highest point in Providence at the time, on what was once known asTintop Hill on theEast Side.[11][12] Construction began in May 1890[13] and the building was dedicated on October 21, 1891.[14] The total cost of construction and equipping the facility in 1891 wasUS$40,000[9] (equivalent to $1,400,000 in 2024.)
The primarytelescope is arefractor with a 12-inch (300 mm) aperture objective and focal length of 15 feet (4.6 m). The lens wasfigured byJohn Brashear following the design ofCharles S. Hastings. Thecrown glass was made by Mantois of Paris and theflint glass by theoptical works at Jena in Germany.[3] Theequatorial mount and mechanicalclock drive were made byGeorge N. Saegmuller. This telescope was used for scientific work such as lunaroccultation timings to make a more precise determination of the orbit of the Moon.[6] Instruments such as afilar micrometer could be attached to the telescope to measurebinary stars. Aspectroscope could also be attached to measurespectral lines.
Another telescope, a 3-inch (76 mm)meridian circle instrument, also made by Saegmuller, was used for observations related to timekeeping.[3] Similar, but smaller, instruments were used for student instruction.
As a number of other observatories did in the late 19th century Ladd provided an accurate regional timekeeping service by transmitting atime signal viatelegraph wire.[15] Observations of select stars were made with the meridian circle instrument as the star transited (or crossed) themeridian. This data was then used to calibrate a high qualitypendulum clock set to keepsidereal time. Calculations were then performed to convert sidereal time to localstandard time. A second clock keeping standard time was equipped with a telegraphic break circuit mechanism to automatically generate the time signals.[16] These precision clocks were known as astronomical regulators. Timekeeping instruments used at Ladd include regulators designed by Robert Molyneux,Edward Howard, Hezekiah Conant, andSigmund Riefler.[17]
Prior to the Ladd time service the region relied on time signals from eitherHarvard College Observatory or theUnited States Naval Observatory that were transmitted viaWestern Union Telegraph wires. In many cases these signals were found to be inaccurate due to transmission delay or unavailable due to storms or accidents.[18][16] Time signals from Ladd were first sent on September 12, 1893.[18] The observatory sold these time signals to Rhode Island Electric Protective (RIEP) company, a local fire and burglar alarm firm.[15] The signals from Ladd were redistributed to RIEP customers including "jewelers" (i.e.clockmakers) who repaired and calibrated watches.[19][16]
The signals were also used to directly control aclock network of several hundredslave clocks in various business offices.[20] The revenue that the university received from the time signal service from 1906 to 1916 wasUS$200[21][22] (equivalent to $7,000 in 2024) per year. Another telegraph wire connected the observatory to theFire Department atCity Hall which was used to signal the accurate time to the community by fire alarm bells at noon and 8:30 p.m. every day.[23] Time signals from Ladd were also used to synchronize the regulator that was used to ring the bell in the cupola of University Hall on the main campus.[24] The bell marked the beginning and end of class periods.
Ladd first received experimental wireless time signals from the Naval Observatory in November 1913. The purpose of this experiment was to measure the difference inlongitude between Washington, D.C. and Paris. Ladd was listening to theses signals in an attempt to measure the difference between D.C. and Providence.[25] The signals were transmitted by the Navy radio facilityNAA inArlington, Virginia. In 1915 Brown installed a sophisticated "wireless plant" consisting of a 450-foot-long (140 m) antenna strung between a tower on University Hall and another tower on Maxcy Hall. The operator's station with transmitting and receiving equipment was located in the basement of Wilson Hall, a building midway between the two towers. Primarily intended for engineering instruction and physics experimentation it was also used to receive the time signals from Arlington.[26] On November 24, 1916 the transit instrument observations were discontinued and the clocks were instead calibrated by the NAA signals. On April 6, 1917 the use of radio time signals was stopped. This was due to a US government order to halt the use of radio transmitters and receivers when the U.S. entered the First World War.[27] The transit observations resumed on April 10, 1917. These calibration observations, using the meridian instrument, continued through October 16, 1919.
Calibration by Naval Observatory time signals from radio stationWWV resumed after the war ended.[6] These early transmissions werelongwave, so called due to the longwavelength. Frequencies, and corresponding wavelengths, from 15 kilohertz (20,000 m) to 150 kilohertz (2,000 m) were used. These transmissions required special equipment such as the installation at Wilson Hall to receive them. By the 1930s it had become common to use a simple and inexpensiveshortwave radio of the kind used to receivebroadcast programs to receive WWV.[28] This type of radio could also be used to receive time signal transmissions from Greenwich, Paris, and Berlin. The radio was directly wired to the clock circuits to allow recording the time signals.[6]
During World War II Ladd was used as a national training center for Navy navigators.[1] In 1944 the Ladd time signals were used to test theCivil Defenseair raid sirens at fire stations in the region at noon every day.[29][1] The sirens on fire stations continued to sound at noon using the time signals from Ladd until at least 1955.[30]
Clocks in a number of buildings in Providence were regulated using the signals from Ladd late into the 20th century.[19] After determining no one was receiving the time signals, the transmissions were discontinued in 1973.[29]
Scientists affiliated with the observatory include Winslow Upton,Frank Washington Very,Frederick Slocum,Robert Horace Baker, and Charles H. Smiley. Notable graduates from Brown andPembroke who performed work at Ladd include Slocum (A.B. 1895, Ph.D. 1898),Leah B. Allen (A.B. 1907), andHarlan True Stetson (B.S. 1912).[6]
The directors of Ladd Observatory have been:[29]
H. P. Lovecraft, author ofweird fiction, had free access to the observatory for several years. He wrote astronomy articles for Providence newspapers between 1906 and 1918 based upon his study there.[31]
Prior to the annexation of a part of Johnston on June 1 Tin Top hill near Ladd Observatory on the East Side was the highest point of land in Providence, being 200 feet above sea level. But Neutaconkanut now takes first place, the highest point within the city limits being 255 feet above sea level.
Other research-oriented observatories continued to sell time, with varying degrees of financial success.
Another of the applications to which the plant will be put will be to supply time to the Ladd Observatory from the plant at Arlington, Va., which signals at 10 o'clock every night.
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