The University of Illinois Astronomical Observatory, located at 901 S. Mathews Avenue in

Urbana, Illinois Urbana ( ) is a city in and the county seat of Champaign County, Illinois, United States. As of the 2020 census, Urbana had a population of 38,336. As of the 2010 United States Census, Urbana is the 38th-most populous municipality in Illinois. It ...

, on the campus of the

University of Illinois Urbana-Champaign The University of Illinois Urbana-Champaign (U of I, Illinois, University of Illinois, or UIUC) is a public land-grant research university in Illinois in the twin cities of Champaign and Urbana. It is the flagship institution of the Univers ...

, was built in 1896, and was designed by Charles A. Gunn. It has been listed on the

National Register of Historic Places The National Register of Historic Places (NRHP) is the United States federal government's official list of districts, sites, buildings, structures and objects deemed worthy of preservation for their historical significance or "great artistic ...

since November 6, 1986, and on December 20, 1989, was designated a

National Historic Landmark A National Historic Landmark (NHL) is a building, district, object, site, or structure that is officially recognized by the United States government for its outstanding historical significance. Only some 2,500 (~3%) of over 90,000 places listed ...

.University of Illinois Astronomical Observatory
, NHL Database, ''National Historic Landmarks Program''. Retrieved April 28, 2007. Though none of the astronomical instruments are being used for professional research today, the observatory still contains a 12" Brashear

refractor A refracting telescope (also called a refractor) is a type of optical telescope that uses a lens as its objective to form an image (also referred to a dioptric telescope). The refracting telescope design was originally used in spyglasses and a ...

. The observatory played a key role in the development of astronomy as it was home to a key innovation in the area of astronomical photometry. The facility has been directed by such noted scientists as

Joel Stebbins Joel Stebbins (July 30, 1878 – March 16, 1966) was an American astronomer who pioneered photoelectric photometry in astronomy. He was director of the University of Illinois Observatory from 1903 to 1922 where he performed innovative work with th ...

and Robert Horace Baker.University of Illinois Observatory Building -- A Virtual Tour
, University of Illinois Astronomy Department, October 2, 2000, ''University of Illinois''. Retrieved April 28, 2007 Erected at the behest of the Illinois General Assembly, the University of Illinois Observatory became important in the development of

astronomy Astronomy () is a natural science that studies celestial objects and phenomena. It uses mathematics, physics, and chemistry in order to explain their origin and evolution. Objects of interest include planets, moons, stars, nebulae, g ...

due, in large part, to pioneering research by Dr. Stebbins, from 1907 to 1922. Joel Stebbins left the University of Illinois in 1922 but left behind a legacy of discovery that helped alter the face of modern astronomy. The building served the University of Illinois astronomy department from its opening until 1979, when the department moved into a new, larger building to house its growing staff.

History

Early history

Astronomy classes at the University of Illinois date to its earliest days. The first courses focused on measurement of the night sky and was taken by civil engineering students to sharpen their surveying skills. A small observatory consisting of a 4-inch refractor and a small transit telescope was constructed by 1872. The astronomy courses were typically taught by the mathematics department and by the early 1890s, several mathematics instructors wanted to do more with astronomy. An expanded astronomy curriculum would require a new larger facility. The Illinois state legislature voted in 1895 to fund a new teaching observatory at the

University of Illinois The University of Illinois Urbana-Champaign (U of I, Illinois, University of Illinois, or UIUC) is a public land-grant research university in Illinois in the twin cities of Champaign and Urbana. It is the flagship institution of the Univer ...

, providing $15,000 for construction. The site chosen was a grass knoll between Matthews Avenue and Burrill Avenue, just north of the

Morrow Plots __NOTOC__ The Morrow Plots is an experimental agricultural field at the University of Illinois Urbana-Champaign. Named for Professor George E. Morrow, it is the oldest such field in the United States and the second oldest in the world. It was esta ...

, a National Historic Landmark that is the nation's oldest experimental field. Contracts were extended to Charles A. Gunn, the architect and an instructor on campus, and Bevis and Company in Urbana as the general contractor with construction beginning in April 1896.University of Illinois Observatory
, Astronomy and Astrophysics, November 5, 2001, Online Books, National Park Service. Retrieved April 28, 2007 The building was completed by August at a total cost of $6,800. The principle telescope was installed in November and the final telescope was in place by February 1897. The first director of the observatory was George W. Myers. Myers was a Champaign county native who graduated from the university in 1888. He remained as a mathematics instructor also teaching the spring Descriptive Astronomy course. In preparation for the directorship he spent two years in Munich earning his Ph.D in astronomy. In his first year as director, G.W. Myers announced the discovery of the source of the variability in the star

Beta Lyrae Beta Lyrae (β Lyrae, abbreviated Beta Lyr, β Lyr) officially named Sheliak (Arabic: الشلياق, Romanization: ash-Shiliyāq) ( IPA: ), the traditional name of the system, is a multiple star system in the constellation of Lyra. Ba ...

at the opening conference for Yerkes Observatory. He served as director from 1897 until 1900 when he left for the

University of Chicago The University of Chicago (UChicago, Chicago, U of C, or UChi) is a private university, private research university in Chicago, Illinois. Its main campus is located in Chicago's Hyde Park, Chicago, Hyde Park neighborhood. The University of Chic ...

.History of the University of Illinois Observatory
University of Illinois Astronomy Department, 2012. University of Illinois. Retrieved April 28, 2007 W.C. Brenke, an astronomy instructor, served as acting director until a new director was hired in 1903.

Stebbins' research

Before 1907, all magnitude measurements for stars were obtained through visual comparison of relative brightness, a process that was slow and inexact. Later photographic methods would use starlight to make a representation on a photographic plate. Regardless, neither method was adequate for quantitative measurements. The drawback of previous methods of measuring stellar magnitude made the use of electricity for empirically gathering astronomical data revolutionary for the science of

' pioneering research for astronomical photometry took place at the observatory. $UofI selenium cell photometer mount refractor 1910$ Stebbins arrived as director of the University of Illinois Observatory after he completed his Ph.D. at the

University of California, Berkeley The University of California, Berkeley (UC Berkeley, Berkeley, Cal, or California) is a public land-grant research university in Berkeley, California. Established in 1868 as the University of California, it is the state's first land-grant u ...

in 1903. Once Stebbins arrived fresh from his dissertation completed at Lick Observatory, he began a two-year study of the brightness of 107 binary stars using a Pickering visual photometer. The research, with the assistance of his wife, May Stebbins, investigated the relative brightness on binary stars using visual techniques. In a 1957 speech at the American Astronomical Society, Stebbins recalled the events which led up to the electric cells:

She (May Stebbins) wrote down the numbers as the observer called them, but after some nights of recording a hundred readings just to get one magnitude, she said it was pretty slow business. I responded that someday we would do all this by electricity. That was a fatal remark. Thereafter she would often prod me with the question, "When are you going to change to electricity?" It happened that within two or three months, the Department of Physics gave an open house, and one of the exhibits was in (the) charge of a young instructor, F.C. Brown. He showed how, when he turned on a lamp to illuminate a selenium cell, a bell would ring, when the lamp was off, the bell would stop. Here was the idea: Why not turn on a star to a cell on a telescope and measure a current?

Stebbins and Fay C. Brown soon became friends and in time, they had a selenium cell positioned on the telescope at the observatory. In the summer of 1907, after several attempts, the two achieved a

light curve In astronomy, a light curve is a graph of light intensity of a celestial object or region as a function of time, typically with the magnitude of light received on the y axis and with time on the x axis. The light is usually in a particular frequ ...

for Earth's moon and measured the moon's brightness during a lunar eclipse. This marked the first time in America that electricity was used to measure astronomical brightness. Later Stebbins went further, discovering that by cooling the cell to zero degrees Fahrenheit he would double the cell sensitivity and diminish irregularities in the circuit tenfold, still further, by reducing the size of the cell the irregularities were reduced more. The pair went on to detect stellar intensity and activity that were previously unrecorded. In 1909 their observations of

Algol ALGOL (; short for "Algorithmic Language") is a family of imperative computer programming languages originally developed in 1958. ALGOL heavily influenced many other languages and was the standard method for algorithm description used by the ...

detected for the first time the second minimum as well as limb brightening. The coming of

Comet Halley Halley's Comet or Comet Halley, officially designated 1P/Halley, is a short-period comet visible from Earth every 75–79 years. Halley is the only known short-period comet that is regularly visible to the naked eye from Earth, and thus the on ...

in 1910 allowed Stebbins, in May, to use his selenium photometer to study the comet. Two years later Stebbins used the

photometer A photometer is an instrument that measures the strength of electromagnetic radiation in the range from ultraviolet to infrared and including the visible spectrum. Most photometers convert light into an electric current using a photoresistor, ...

and discovered four stars to be eclipsing binary stars:

Beta Aurigae Beta Aurigae (Latinized from β Aurigae, abbreviated Beta Aur, β Aur), officially named Menkalinan , is a binary star system in the northern constellation of Auriga. The combined apparent visual magnitude of the system is 1.9, making ...

Spica Spica is the brightest object in the constellation of Virgo and one of the 20 brightest stars in the night sky. It has the Bayer designation α Virginis, which is Latinised to Alpha Virginis and abbreviated Alpha Vir or α Vir. Analys ...

Alpha Coronae Borealis Alpha Coronae Borealis (α Coronae Borealis, abbreviated Alpha CrB, α CrB), officially named Alphecca , is an eclipsing binary star in the constellation of Corona Borealis. It is located about 75 light years from the Sun and contains ...

and Delta Orionis. Although the selenium cell photometer was proving successful, it was difficult to use and not very sensitive. Illinois physics professor

Jakob Kunz Jakob Kunz (November 3, 1874 – July 18, 1938) was an American physicist who pioneered the development and application of photoelectric cells. Born in Brittnau, Switzerland, he earned his bachelor's degree in 1897 and his Ph.D in 1902 from the ...

suggested that Stebbins try a photoelectric cell. Kunz had been doing experimentation on an improved photoelectric cell which was alkali based. Kunz's cell was the predecessor of the modern day "

electric eye An electric eye is a photodetector used for detecting obstruction of a light beam. An example is the door safety system used on garage door openers that use a light transmitter and receiver at the bottom of the door to prevent closing if there is ...

." Stebbins left for a sabbatical in Europe in fall of 1912. While he was gone, Kunz and another Illinois physicists W.F. Schulz successfully tested a photoelectric cell photometer at the Observatory. Upon his return from sabbatical in August 1913, Stebbins ended his pioneering work with the

selenium Selenium is a chemical element with the symbol Se and atomic number 34. It is a nonmetal (more rarely considered a metalloid) with properties that are intermediate between the elements above and below in the periodic table, sulfur and tellurium, ...

cell and began working with Kunz on the new photometer. A number of other notable astronomical discoveries occurred at the observatory through the years. In 1915 Stebbins' object of study became the star involved in Myers' first big discovery at the observatory, Beta Lyrae. He thus began an aggressive research program produced a series of papers in the Astrophysical Journal on eclipsing binaries Lambda Tauri, Algol, 1H Cassiopeiae (HR 8926), ellipsoidal variables π5 Orionis, and b Persei, and Nova Aquilae (

V603 Aquilae V603 Aquilae (or Nova Aquilae 1918) was a bright nova first observed (from Earth) in the constellation Aquila in 1918. It was the brightest "new star" to appear in the sky since Kepler's Supernova in 1604. Like all novae, it is a binary ...

) in 1918. Stebbins and Kunz also travelled to Wyoming to study the

Solar eclipse of June 8, 1918 A total solar eclipse occurred on Saturday, June 8, 1918. The eclipse was viewable across the entire contiguous United States, an event which would not occur again until the solar eclipse of August, 2017. The path The path of totality started ...

. Dr. Elmer Dershem joined the Observatory staff in 1917 and rebuilt the photometer in the summer of 1919. By 1922, Charles Wylie completed the first Illinois astronomy doctorate for his photoelectric studies of the Cepheid Η Aquilae, and Sigma Aquilae noting its variations due to tidal distortions. Stebbins research earned him several honors while at Illinois. In 1913 he was awarded the

Rumford Prize Founded in 1796, the Rumford Prize, awarded by the American Academy of Arts and Sciences, is one of the oldest scientific prizes in the United States. The prize recognizes contributions by scientists to the fields of heat and light. These terms ...

of the American Academy of Arts and Science, and in 1915 the

Henry Draper Medal The Henry Draper Medal is awarded every 4 years by the United States National Academy of Sciences "for investigations in astronomical physics". Named after Henry Draper, the medal is awarded with a gift of USD $15,000. The medal was established ...

of the National Academy of Sciences. The research was also supported by grants from the Draper fund of the National Academy of Sciences and the Rumford Fund of the American Academy of Arts and Sciences. He served as an officer of the American Astronomical Society and was one of the American delegates in 1918 to attend the organizational meeting of the

International Astronomical Union The International Astronomical Union (IAU; french: link=yes, Union astronomique internationale, UAI) is a nongovernmental organisation with the objective of advancing astronomy in all aspects, including promoting astronomical research, outreac ...

in Brussels. After numerous discoveries, Stebbins left the University of Illinois in 1922 for the

Washburn Observatory The Washburn Observatory ( obs. code: 753) is an astronomical observatory located at 1401 Observatory Drive on the University of Wisconsin–Madison campus in Madison, Wisconsin, United States. Completed in 1881, it was a major research facility ...

in Wisconsin and Dr. Robert H. Baker took over as the new Director of the University of Illinois Observatory. However, because the observatory lost its pioneering researcher in Stebbins did not mean that discovery and science did not continue at the university's observatory.

Robert Baker, third director

$UofI photoelectric photometer 1913 mount on refractor$ When Robert Baker arrived he continued a photoelectric photometry program focusing on variable stars. He continued to use the 12-inch refractor until 1927 when a new photometer was constructed and attached it to the 30-inch reflector telescope in the Observatory annex.The many transformations of the University of Illinois annex
Svec, Michael, 21 (1) 81-93, 2018 ''Journal of Astronomical History and Heritage''. Retrieved May 2018 He supervised two graduate students who worked on this equipment in the early 1930s. On May 27, 1933, the star

Arcturus , - bgcolor="#FFFAFA" , Note (category: variability): , , H and K emission vary. Arcturus is the brightest star in the northern constellation of Boötes. With an apparent visual magnitude of −0.05, it is the third-brightest of the ...

provided light which fell onto a photo cell in the observatory's annex and sent a signal to open the Chicago World's Fair. The Great Depression was soon in full swing. and the department budget fell from $1000 to $200. It was during this time that Dr. Baker authored a number of books. Baker was an extremely gifted writer whose clear simple work helped him explain what was going on up there to an entire generation. In 1930, he authored the textbook ''Astronomy'', followed in 1932 by ''The Universe Unfolding'', and his revision of Simon Newcomb's ''Astronomy for Everyone''. In 1934 Baker described an imaginary trip to the moon in ''When the Stars Come Out''. His second textbook, ''An Introduction to Astronomy'' also appeared in 1934. ''Introducing the Constellation'' was published in 1937 and, with the help of Howard Zim in 1951, ''Stars: A Guide to the Heavens''. His textbooks were used across the entire country for undergraduate astronomy courses and praised as classics. After two sabbaticals to Harvard, Baker's interest moved from photometry to the Milky Way. In 1939 the 30-inch reflector was replaced with a Ross photographic telescope and for more than ten years after that, 1939 through 1951 Baker used the observatory's photographic telescope to help count the stars in the Milky Way and determine their distribution as part of Harvard's Star Counting Circuit. This would be the primary research until Baker's retirement in 1951. The 12-inch refractor was only used for instruction, public open houses and for visiting school groups.

Modern department

The university decided that it was time to increase the size of the department and hired Dr.

George C. McVittie George Cunliffe McVittie (1904–1988) was a British mathematician and cosmologist. He is best known for his contributions towards radio astronomy. Life McVittie was born on 5 June 1904 in Smyrna in Turkey, where his father, Frank S. McVittie, ...

as the next director. After his arrival in the fall of 1952, McVittie began the refurbishment of the Observatory's major instruments. The 12-inch refractor and the 3-inch transit telescope were restored in 1954 by J.W. Fecker Company. He also began expanding the faculty. Dr. Stanley Wyatt joined the faculty in 1953, George Swenson and Ivan King in 1956, Kennth Yoss, John Dickel and James Kaler in 1964 and Edward Olson in 1966. With George Swenson's arrival, Illinois began a program of radio astronomy resulting in the Vermillion River Radio Observatory that opened in 1962.

Prairie Observatory The Prairie Observatory was constructed near Oakland, Illinois by the University of Illinois at Urbana-Champaign's Department of Astronomy. The site was adjacent to Walnut Point State Park and provided an accessible but dark sky site only 35 mil ...

was an optical observatory consisting of a 40-inch telescope and was completed in 1967. By the time of Dr. McVittie's retirement in 1971, the one-astronomer department had expanded to nine faculty with research interests in relativity, cosmology, celestial mechanics, perturbation theory, dynamics of star clusters, planetary nebulae, planets, supernovae and radio astronomy. The department which produced only five advanced degrees prior to 1951 graduated 29 Masters and 14 Doctoral student during the McVittie administration. On October 4, 1957, the very evening of the launch of Sputnik, students and faculty met at the Observatory and constructed an improvised radio interferometer. They published the first precise ephemeris in Nature in November. Their success helped gather momentum and funding for the radio astronomy program.

Current history

The observatory underwent major renovations and additions in 1956 and 1966 to accommodate the growing faculty (see architecture section below). In 1967, the 12 inch telescope at the observatory made its last professional photometric observations. The University of Illinois' Astronomy Department moved out of the building in 1979. The same year the observatory received recognition by the National Register of Historic Places, 1986, thousands gathered at the site to observe Comet Halley's journey into the

inner Solar System The Solar SystemCapitalization of the name varies. The International Astronomical Union, the authoritative body regarding astronomical nomenclature, specifies capitalizing the names of all individual astronomical objects but uses mixed "Solar S ...

. The observatory is no longer used for research purposes, though the telescope is still used as a teaching tool in the university's astronomy classes. In addition, a University of Illinois Astronomical Society uses the telescope often for amateur astronomy and astrophotography. The observatory dome underwent a renovation that included repainting in 1996. In 2009, Professors Leslie Looney and Benjamin McCall constructed a spectrometer on the ground floor of the observatory, and ran an optical fiber cable to the telescope in the dome. They used this to teach an astrochemistry class until the 50-fiber bundle was broken. In 2013, the telescope was detached from its mount, lifted out of the dome through the dome slit, and placed on a truck to be shipped to Swarthmore, Pennsylvania to be refurbished by Ray Museum Studios. The telescope's optics were cleaned, as well as the exterior refinished. While the telescope was away, the dome was repainted, as were the interior walls and flooring. The total cost of the renovation was approximately $54,000.

Equipment

The primary instrument is a refractor of 12 inches clear aperture and of 15 ft. focal length. The optics are by John A. Brashear of Pittsburgh and the mechanical parts by the Warner & Swasey Company of Cleveland. Eyepieces provide magnification ranging from 130 to 720 power. It is mounted on a rectangular cast-iron column of two-tons weight that rests on the masonry pier. Through a glass door in the column you can see the driving clock that keeps the telescope turning westward just as fast as the stars go, so that a star remains in view as long as the astronomer wishes to observe it. The telescope turns on two axes at the top of the column. One axis slants upwards toward the north pole of the heavens; the other at right angles to it, and it is to this one that the tube of the telescope is attached. Two large circles provide graduated scales for locating objects by their coordinates. The instrument can be turned on these axes toward any part of the sky. It is a heavy instrument, but so perfectly balanced that the astronomer moves it easily with one hand. The principle transit circle was a 3-inch Combined Transit and Zenith telescope designed by Warner & Swasey especially for Illinois. The objective, by John Brashear, was held in place by a special cell that compensated for the different temperature conductivities of the brass and glass so that temperature had no effect on the location or separation of the lenses. Designated as model M-505, the transit included a handing level, micrometer and a built in reversing mechanism. This transit was located in the east-central transit room allowing direct access to the clock room through a small window. The instrument cost $1200 in 1896. The transit circle was capable of determining both right ascension and declination of a star, unlike the more simple and common transit instrument that can only determine the right ascension. Such an instrument could also be used to set the Observatory's clocks by observing standard stars whose position was precisely known. In addition there were three other smaller transit telescopes, two clocks by Clemens Riefler of Munich, and other accessories including sextants, chronometers, and teaching tools.

Architecture

UniveristyOfIllinoisObservatory Urbana Illinois 4568

The building, itself, is in a traditional observatory design, Colonial Revival style, following a T-plan. The dome rises in the air. The observatory was built on a one-story T-plan, facing north, of buff-colored

Roman brick Roman brick can refer either to a type of brick used in Ancient Roman architecture and spread by the Romans to the lands they conquered; or to a modern type inspired by the ancient prototypes. In both cases, it characteristically has longer and f ...

(from

Indiana Indiana () is a U.S. state in the Midwestern United States. It is the 38th-largest by area and the 17th-most populous of the 50 States. Its capital and largest city is Indianapolis. Indiana was admitted to the United States as the 19th s ...

) and features

limestone Limestone ( calcium carbonate ) is a type of carbonate sedimentary rock which is the main source of the material lime. It is composed mostly of the minerals calcite and aragonite, which are different crystal forms of . Limestone forms whe ...

lintels and sills. The cross of the T is long east to west and deep, its stem is located to the south, centered along the east-west axis and is deep by wide. The octagonal

observation tower An observation tower is a structure used to view events from a long distance and to create a full 360 degree range of vision to conduct long distance observations. Observation towers are usually at least tall and are made from stone, iron, an ...

rises into the air at the intersection of the T where it becomes a dome and continues to a height of . At floor level of the second equatorial room a balustrade circles around the exterior of the tower. The tower is capped by a great circular limestone plate, which carries the dome track. Internally, the diameter of the dome is and its zenith above the floor. The dome slit, which still operates, has an opening of and can be opened or closed by hand in seconds. The dome tower and equatorial room are original save a motor drive which replaced the old rope and sheave method of rotating the dome. As of September 2014, the motor drive is being serviced and the rope and sheave method is once again in use. In the center of the equatorial room is the 1896

refractor telescope A refracting telescope (also called a refractor) is a type of optical telescope that uses a lens (optics), lens as its objective (optics), objective to form an image (also referred to a dioptrics, dioptric telescope). The refracting telescope d ...

. Built by the firm of Warner and Swasey, Cleveland, Ohio, the scope is stabilized on a brick pier which extends down into the bedrock and is not attached to the building in any way. The telescope cost $4,500 and still has the original observer's chair mentioned in the contract with Bevis and Company at a cost of $25. The entrance hall, below the equatorial room, octagonal in shape, is centered on a brick pier. The entrance hall retains original stairs, newel posts, balustrades, and wood floors; it is still used for its original purpose, storage. The east and west wings of the building once each contained a transit room. Each of the rooms had a mounted

transit telescope In astronomy, a transit instrument is a small telescope with extremely precisely graduated mount used for the precise observation of star positions. They were previously widely used in astronomical observatories and naval observatories to meas ...

on a brick pier; the piers are still visible in the basement below the transit rooms. The western transit rooms were converted into office space by the 1920s. The eastern transit rooms were converted to office space more recently. The exterior of the observatory building has a brick cornice, with stone sills and lintels, stone water course, ornamental gutters, and original copper downspouts. Most of the building's windows are of the wooden double-hung variety and original, as are the front entrance door transom and concrete stoop. The original front balustrade has been replaced, however, the western stoop and ornamental iron balustrade is still original. Aside from the transit room conversion to office space the building has seen other major work in the past. The southwest corner of the building was built in 1956, of cream colored brick, to house additional classrooms and office space. The addition of 1956 took special care to replicate nearly every aspect of the original building except for color. Another major addition occurred in 1966 with the construction of the large east wing. Of the same cream colored brick as the 1956 addition, it also tried to mimic the building's finer details. The 1966 east wing addition provided for, again, more office space, but this project also included space for a new darkroom and a radio telescope laboratory. The observatory basement and the dome housing the refractor are still in use by the astronomy department at U of I and the University of Illinois Astronomical Society, a student organization on campus.

Historic significance

The observatory holds significance in astronomy because of its association with the development of

and

photoelectric cell A solar cell, or photovoltaic cell, is an electronic device that converts the energy of light directly into electricity by the photovoltaic effect, which is a physical and chemical phenomenon.

. The cell revolutionized the science of astronomical

photoelectric The photoelectric effect is the emission of electrons when electromagnetic radiation, such as light, hits a material. Electrons emitted in this manner are called photoelectrons. The phenomenon is studied in condensed matter physics, and solid sta ...

photometry Photometry can refer to: * Photometry (optics), the science of measurement of visible light in terms of its perceived brightness to human vision * Photometry (astronomy), the measurement of the flux or intensity of an astronomical object's electro ...

by the use of electricity to measure the brightness of stars by providing a more precise and accurate measurement compared to the visual and photographic methods common at that time. This branch of astronomy measures stellar magnitude. The research regarding photometry was conducted on a Warner and Swasey refractor telescope in the second-story equatorial room. As a result of Dr. Stebbins' work determining stellar magnitude using photoelectric photometry, it became standard technique. Due to this astronomical importance the observatory was listed on the

on November 6, 1986, and on December 20, 1989, the U.S. Department of Interior designated the U of I Observatory a

References

Notes Further reading *Baker, Robert, H.
Telescope and photometer of the University of Illinois Observatory
" ''Popular Astronomy'', Vol. 36, p. 86, Jan. 1928. *Beaman, B., & Svec, M.
Illinois – Where astronomical photometry grew up
" Journal of the American Association of Variable Star Observers. vol. 40, pp. 141–149, 2012. . American Association of Variable Star Observers, Cambridge MA. *Francissen, Shauna J. , ( PDF), Urbana, Illinois: Preservation and Conservation Association, 1986.
Also here for complete nomination to National Register.
*Myers, G.W. "The Astronomical Observatory at the University of Illinois." ''Popular Astronomy'', vol. 6, 1898. *Stebbins, Joel, and F.C. Brown
Determination of the Moon's Light with a Selenium Photometer
'" ''Astronomical Journal'', December 1907. *Stebbins, Joel.
Early Photometry at Illinois
''Publications of the Astronomical Society of the Pacific'', December 1957. *Stebbins, Joel.
The Electric Photometry of Stars
" ''Publications of the Astronomical Society of the Pacific'', Vol. 52, no. 308, p.235, 1940. *Stebbins, Joel. "Jacob Kunz, 1874-1938," ''Popular Astronomy'', March 1939. *Stebbins, Joel. The Brightness of Halley's Comet as Measured With a Selenium Photometer," ''Astrophysical Journal'', July 1910. *Stebbins, Joel.
The Washburn Observatory
" ''Publications of the Astronomical Society of the Pacific'', Vol. 70, no. 416, p.437, 1958. *Struve, Otto, and Velta Zebergs. ''Astronomy of the Twentieth Century''. New York: Macmillan, 1962. *Svec, Michael T. ''"The birth of electronic astronomy,"'' ''Sky and Telescope,'' May 1992. *Svec, Michael.
The many transformations of the University of Illinois Annex
" ''Journal of Astronomical History and Heritage,'' Vol 21, no. 1, pp. 81-93, 2018. *Tenn, Joseph S.

" ''Griffith Observer'', Vol. 53, no. 8, pp. 2-11 Aug. 1989. *University of Illinois Archives, Observatory file, Urbana, Illinois. *Warner and Swasey. ''A Few Astronomical Instruments''. Cleveland, 1900. *Whitford, A.E. '"American Pioneer in Photoelectric Photometry,"' ''Sky and Telescope,'' May 1966.

External links

University of Illinois Observatory Collection of instruments and telescopesPortal to Heritage of Astronomy: University of Illinois Observatory case study

U of I Archives Search - Keyword="Observatory"

U of I Observatory "Virtual Tour"Friends of the University of Illinois ObservatoryThe Vermilion River Observatory; Two decades of radio astronomy in ECE (pdf)
{{DEFAULTSORT:Astronomical Observatory (University of Illinois Urbana-Champaign) Astronomical observatories in Illinois Buildings and structures of the University of Illinois Urbana-Champaign Infrastructure completed in 1896 National Historic Landmarks in Illinois National Register of Historic Places in Champaign County, Illinois University and college buildings on the National Register of Historic Places in Illinois Buildings and structures in Urbana, Illinois