Measuring & Mapping

Vernier Compass

Where, how far, and how much? People have invented an astonishing array of devices to answer seemingly simple questions like these. Measuring and mapping objects in the Museum's collections include the instruments of the famous—Thomas Jefferson's thermometer and a pocket compass used by Meriwether Lewis and William Clark on their expedition across the American West. A timing device was part of the pioneering motion studies of Eadweard Muybridge in the late 1800s. Time measurement is represented in clocks from simple sundials to precise chronometers for mapping, surveying, and finding longitude. Everyday objects tell part of the story, too, from tape measures and electrical meters to more than 300 scales to measure food and drink. Maps of many kinds fill out the collections, from railroad surveys to star charts.

Place: Washington

Dumpy Level

The U. S. Coast and Geodetic Survey Precise Level "is constructed without regard to cost, extreme accuracy being the governing consideration.
Description
The U. S. Coast and Geodetic Survey Precise Level "is constructed without regard to cost, extreme accuracy being the governing consideration. This fact accounts for the seemingly high price, which is for the complete instrument, with two achromatic eye–pieces, graduated and chambered level–vial having a value of 2 seconds per division. Completed packed, with extra heavy tripod...$300." Thus wrote G. N. Saegmuller, proprietor of Fauth & Co., describing the Precise Level that had been developed by E. G. Fischer and his colleagues in the Instrument Division of the Coast and Geodetic Survey. This example, marked "FAUTH & CO. WASHN. D.C. 2239" was made between 1900, when the form was introduced, and 1905, when Fauth went out of business. It belonged to the University of Missouri at Columbia.
To minimize changes due to temperature variation, Fischer's team developed an iron–nickel alloy with a very low coefficient of expansion. They also placed the telescope tube within a slightly larger tube, and sealed the openings between the tubes with chamois leather collars. To minimize disruptions caused by changes in weight or pressure upon the ground, Fischer's team mounted the level above the telescope. A mirror, mounted above the level, reflects an image of the bubble into a tube at the left side of the telescope. Thus, while the surveyor's right eye looks through the telescope to the distant rod, his/her left eye can see both ends of the level vial.
The Fischer level was Fauth's third precise level. The first was similar to the instrument that Kern had shown at the 1876 Centennial Exhibition held in Philadelphia. The second, unveiled in 1879, was based on a design originating in Vienna, Austria, and developed in the Instrument Shop of the Coast and Geodetic Survey, which was then under Saegmuller's direction.
Ref: E. G. Fischer, "Description of Precise Levels Nos. 7 and 8," Report of the Director of the United States Coast and Geodetic Survey (1900), Appendix 6.
George N. Saegmuller, Descriptive Price–List of First–Class Engineering & Astronomical Instruments (Washington, D.C., 1903), pp. 60–61.
Randall Brooks and Heather Bajdik, "Precise Levels in Surveys of North America," Rittenhouse 10 (1996): 48–57.
Location
Currently not on view
maker
Fauth & Co.
ID Number
PH.333634
catalog number
333634
accession number
300659

Magnetometer

This theodolite magnetometer is based on the design that the U.S. Coast and Geodetic Survey developed in 1892-1893. It is similar in many ways to the instrument that the Survey had been using since the early 1880s, but with several new features.
Description
This theodolite magnetometer is based on the design that the U.S. Coast and Geodetic Survey developed in 1892-1893. It is similar in many ways to the instrument that the Survey had been using since the early 1880s, but with several new features. One is the octagonal shape of the collimating magnets. Another is the black velvet screen that connects the telescope with the suspension box: this cuts off stray light and eliminates the problems that had been caused by the glass window in the earlier form. It is marked "FAUTH & CO. WASHN D.C. 941" and "T.M.C.I. 1." The serial number suggests that it was made around 1895.
This instrument belonged to the Department of Terrestrial Magnetism of the Carnegie Institution of Washington. Internal records indicate that D.T.M. purchased it from Kolesch & Co. in New York in 1906 (for $175), sent it to Bausch, Lomb, Saegmuller Co. for repairs (another $120), and kept it in service until 1919.
Ref: Edwin Smith, "Notes on Some Instruments Recently Made in the Instrument Division of the Coast and Geodetic Survey Office," Annual Report of the Superintendent of the U.S. Coast and Geodetic Survey for 1894, Appendix No. 8.
Location
Currently not on view
Date made
ca 1895
maker
Fauth
Fauth & Co.
ID Number
1983.0039.04
accession number
1983.0039
catalog number
1983.0039.04

Gradienter

This instrument is marked "Geo. Shilling Washn D.C." and "U.S.G.S." It was made for the U.S. Geological Survey, and transferred to the Smithsonian in 1907. The horizontal circle and vertical arc are silvered, graduated to 30 minutes, and read by verniers to single minutes.
Description
This instrument is marked "Geo. Shilling Washn D.C." and "U.S.G.S." It was made for the U.S. Geological Survey, and transferred to the Smithsonian in 1907. The horizontal circle and vertical arc are silvered, graduated to 30 minutes, and read by verniers to single minutes. A level vial sits atop the telescope; another level vial sits on the horizontal circle. The inside of the lens cap is marked "U.S.G.S. No 2."
George Shilling (1844–1917) was born and educated in Norway and moved to the United States in 1867. In 1882, after working in several American instrument shops, he went into business on his own, manufacturing surveying and astronomical instruments. His shop was in Washington, D.C., and the federal government was his biggest customer.
Location
Currently not on view
maker
Shilling, George
ID Number
PH.247906
catalog number
247906
accession number
47736

Copley 16-Inch Terrestrial Globe

There is no cartouche on this globe, but the texts on the horizon circle read: “IMPROVED GLOBE BOSTON” and “REFERENCES / Flamstead 46. Hevelius 24. Piazzi 180. LaCaille 1661. Nebulae. W. Herschell, J. Herschell, & J. Dunlop.” and “MANUFACTURED FOR H. B. NIMS & CO.
Description
There is no cartouche on this globe, but the texts on the horizon circle read: “IMPROVED GLOBE BOSTON” and “REFERENCES / Flamstead 46. Hevelius 24. Piazzi 180. LaCaille 1661. Nebulae. W. Herschell, J. Herschell, & J. Dunlop.” and “MANUFACTURED FOR H. B. NIMS & CO. / TROY N.Y.” and “THE EQUATION OF TIME” and “Entered according to Act of Congress, in the year 1852 by Charles Copley, in / the Clerks office, of the District Court, of the Southern District, of New York” and “MAGNITUDES / First Magnitude. . . Ninth Nebulae” and “EXPLANATION. / Ancient Constellations . . . Modern . . .”
This globe has a short 4-leg wooden base, a wooden horizon circle and a brass meridian. The astronomical information on the horizon circle suggests that this element could be used for celestial as well as terrestrial globes.
Charles Copley (b. 1800) was a cartographer and engraver from England who became an American citizen in 1844 and lived in Brooklyn. He is best known for the pair of 16-inch globes that he introduced in 1852. Despite being extremely detailed, even to the point of obscurity, these globes won a gold medal at the 1852 fair of the American Institute in New York, and a first premium at the 1853 fair of the Franklin Institute in Philadelphia. Copley’s globes would be revised from time to time, and marketed by other firms.
This example of Copley’s terrestrial globe contains revisions that would have been of particular interest to Americans: Alaska (1867) is shown, but Lake Victoria (1858) and Mt. Kilimanjaro (1848) are not. Other additions include isothermal lines, the Atlantic Cable, and various deep sea soundings which, as advertised, “are not laid down on any other globe.”
H. B. Nims & Co., the firm that marketed this example, was in business in Troy, N.Y., from 1869 to 1885 and again from 1890 to 1896, publishing and selling books and other school supplies. The globe was probably made by Gilman Joslin in Boston.
Ref: D. J. Warner, “The Geography of Heaven and Earth,” Rittenhouse 2 (1999): 54-55, 63-64, and 88-89.
Location
Currently not on view
date made
ca 1870
maker
Copley, Charles
Joslin, Gilman
H. B. Nims & Co.
ID Number
PH.327974
accession number
270024
catalog number
327974

Stenometer

William J. Peters of the U. S. Geological Survey devised this type of instrument in 1898, while doing reconnaissance work in Alaska. G. N.
Description
William J. Peters of the U. S. Geological Survey devised this type of instrument in 1898, while doing reconnaissance work in Alaska. G. N. Saegmuller, proprietor of Fauth & Co., explained its function: "Having a fixed base of known dimensions defined by targets, the measurement is made by bringing the images of the targets together by moving the halved objective by means of a micrometer screw." The Geological Survey transferred this example to the Smithsonian in 1907, reporting that "Distances up to 1 or 2 miles can be determined with sufficient accuracy for reconnaissance work."
This is actually a composite instrument. The prism monocular was probably made by Bausch & Lomb in Rochester, N.Y., according to the design developed by Zeiss in Jena, Germany, while Saegmuller made the divided object glass micrometer. It is notably different from the stenometer that Saegmuller was offering in 1901, and so is probably an early prototype. The words "U.S.G.S. No. 4" are scratched onto its surface.
Ref: George N. Saegmuller, Descriptive Price-List of First-Class Engineering & Astronomical Instruments (Washington, D.C., 1901), p. 108.
Location
Currently not on view
maker
Fauth & Co.
ID Number
PH.247921
catalog number
247921
accession number
47736

Magnetometer

Theodolite magnetometers were designed for observations in the field, and so are relatively light, compact, of simple construction, and easily handled. Their tri-leg base can hold either the magnetometer or the theodolite that is used for astronomical alignment. The U.S.
Description
Theodolite magnetometers were designed for observations in the field, and so are relatively light, compact, of simple construction, and easily handled. Their tri-leg base can hold either the magnetometer or the theodolite that is used for astronomical alignment. The U.S. Coast and Geodetic Survey designed this particular form in the early 1890s, basing it on the instrument that the Survey had been using since the early 1880s but adding several new features. One is the octagonal shape of the collimating magnets. Another is the black velvet screen that connects the telescope with the suspension box: this cuts off stray light,and eliminates the problems caused by the glass window in the earlier form.
This example is marked "C. & G. S. NO. 18." The Survey produced it in 1892-1893 and made it available for L.A. Bauer's magnetic survey of Maryland at the end of the century. The base—marked "Bausch, Lomb, Saegmuller Co., ROCHESTER, N.Y. 2690"—must be a replacement, made after the formation of that firm in 1905.
The U.S. Geological Survey acquired this magnetometer in 1973 when it assumed control of the geomagnetic program of the federal government, and it transferred it to the Smithsonian in 1982.
Ref: Edwin Smith, "Notes on Some Instruments Recently Made in the Instrument Division of the Coast and Geodetic Survey Office," Report of the Superintendent of the United States Coast and Geodetic Survey for the Year 1894, Appendix No. 8, p. 275.
L. A. Bauer, Maryland Geological Survey (Baltimore, 1897), p. 433.
Location
Currently not on view
Date made
1892-1893
maker
U.S. Coast and Geodetic Survey
ID Number
1982.0671.08
accession number
1982.0671
catalog number
1982.0671.08

Metric Conversion Card

In the 1970s, after metric units of measure had been adopted in Canada and Great Britain, some people in the United States advocated adoption of the metric system. The National Bureau of Standards of the U. S.
Description
In the 1970s, after metric units of measure had been adopted in Canada and Great Britain, some people in the United States advocated adoption of the metric system. The National Bureau of Standards of the U. S. Department of Commerce prepared this white plastic reference card to assist those wishing to use the unfamiliar units of measure. One side gave approximate conversion factors for computing metric measures from customary measures of length, area, mass and volume. This side also has a scale eight centimeters long divided to millimeters, and a chart with temperatures in degrees Fahrenheit along the top and temperatures in degrees centigrade along the bottom.
The other side of the card gives factors for converting from metric to common measures of length, area, mass, volume, and temperature. There also is a scale three inches long divided to 1/16th of an inch.
The card was a gift of machinist George A. Norton, a longtime employee of the National Museum of American History.
Location
Currently not on view
date made
1972
maker
U.S. Department of Commerce, National Bureau of Standards
ID Number
1990.3231.02
catalog number
1990.3231.02
nonaccession number
1990.3231

Rule Advertising Friden Calculating Machines

This promotional white plastic six-inch ruler is divided along the top edge to sixteenths of an inch and numbered by fourths from 1 to 6. The bottom edge has six one-inch sections, three of which are divided to 1/12" and three of which are divided to 1/10".
Description
This promotional white plastic six-inch ruler is divided along the top edge to sixteenths of an inch and numbered by fourths from 1 to 6. The bottom edge has six one-inch sections, three of which are divided to 1/12" and three of which are divided to 1/10". The ruler is marked: PRODUCTS OF Friden THE NATURAL WAY ADDING MACHINE (/) THE AUTOMATIC CALCULATOR (/) THE COMPUTYPER (/) DATA PROCESSING MACHINES. It is also marked: FRIDEN, INC. (/) 1724 Wisconsin Avenue, N.W. (/) Washington 7, D.C. (/) Phone ADams 2-6377.
The back of the ruler has lists of decimal equivalents for twelfths, eighths, and sixteenths. Another list gives the number of days from January 1 to the first of each month. The right edge has a 15cm ruler, divided to millimeters. The bottom edge is marked: Printed in U.S.A.
During World War I, Carl Friden (1891–1945) emigrated from Sweden to Australia and then to the United States. He patented numerous improvements to calculating machines while working for the Marchant Calculating Machine Company of Oakland, Calif. With his royalties, he established Friden Calculating Machine Company in 1933. After briefly renting factory space, the firm built a factory in San Leandro, Calif., in 1937. In addition to calculating machines, Friden made precision machine tools and aircraft instruments. After purchasing Commercial Controls Corporation in 1957, it began making automatic electric typewriters for producing mass business correspondence. The Singer Corporation purchased the company in 1965 and phased out the Friden brand name in 1974.
Friden opened a branch office in Washington, D.C., by 1935 and operated it until around 1980. Waverly Dickson (1909–1967) was the branch manager from 1935 to 1967, and he and his sister, Lulie Dickson, owned the building at 1724 Wisconsin Ave. Theodore A. Peck (1892–1978) was the sales manager from 1945 to 1968. Large American cities used postal zone numbers from 1943 to 1963, hence the dating of the object.
The Smithsonian owns at least 18 Friden calculators and nearly 20 pieces of related documentation. For promotional rulers by Monroe's chief competitors, see MA.293320.2811, MA.293320.2812, and MA.293320.2816.
References: John Wolff, "The Friden Calculating Machine Company," December 9, 2012, John Wolff's Web Museum, http://home.vicnet.net.au/~wolff/calculators/Friden/Friden.htm; "Waverly Dickson, Manager of Firm," Washington Post (March 24, 1967), B6; "Theodore Peck, Retired Sales Manager for Friden," Washington Post (November 11, 1978), B6.
Location
Currently not on view
date made
1943–1963
distributor
Friden, Inc.
maker
Friden, Inc.
ID Number
MA.293320.2813
catalog number
293320.2813
accession number
293320

National Bureau of Standards Replica Meter Standard

This aluminum bar, with an X-shaped cross-section, is a replica of the platinum international meter prototype housed in Paris and used as a standard for the metric system from 1889 to 1960. On one side, the lower left corner is marked: A.27.
Description
This aluminum bar, with an X-shaped cross-section, is a replica of the platinum international meter prototype housed in Paris and used as a standard for the metric system from 1889 to 1960. On one side, the lower left corner is marked: A.27. The upper right corner is marked: B.27. Like an actual meter standard, the bar is 102 centimeters long and there are marks 1 centimeter from each end on this side to show the precise length of a meter. Compare to 2000.0126.25.
A rectangular walnut case is lined with black felt. A brass plate on the top of the case is marked: REPLICA METER BAR (/) Presented to (/) BENJAMIN L. PAGE (/) Metrologist (/) National Bureau of Standards (/) On the occasion of his retirement (/) December 29, 1961.
Benjamin Lorenzo Page (1894–1977) began working with length standards at the National Bureau of Standards (now the National Institute of Standards and Technology) around 1920. He was presented with this replica when he retired. His widow, Helen (Bell) Page, then gave it to one of his colleagues, Rolland Ackermann (1905–1985).
References: Catalog of Artifacts on Display in the NBS Museum, edited by H. L. Mason, NBSIR 76-1125 (Washington, D.C., 1977), 17; Robert P. Crease, World in the Balance: The Historic Quest for an Absolute System of Measurement (New York: W. W. Norton, 2011), 223; Herbert Arthur Klein, The Science of Measurement: A Historical Survey (reprint, New York: Dover, 1988), 185; "Benjamin Lorenzo 'Ben' Page," http://www.findagrave.com/cgi-bin/fg.cgi?page=gr&GRid=35098794; Calibrations of the Line Standards of Length of the National Bureau of Standards, by Lewis V. Judson and Benjamin L. Page, RP743, Bureau of Standards Journal of Research 11 (July-December 1933).
Location
Currently not on view
date made
1961
Maker
National Bureau of Standards
ID Number
1985.0819.01
accession number
1985.0819
catalog number
1985.0819.01

Dip Circle

This is one of eight dip circles that Edward Kahler made for the American expeditions sent to observe the transit of Venus across the face of the sun in 1874. It is marked "106." The vertical circle is graduated to 20 minutes.
Description
This is one of eight dip circles that Edward Kahler made for the American expeditions sent to observe the transit of Venus across the face of the sun in 1874. It is marked "106." The vertical circle is graduated to 20 minutes. The horizontal circle is graduated to 30 minutes and read by vernier to single minutes. Both are silvered.
Ref: Steve Dick, Sky and Ocean Joined (Cambridge, 2002), p. 250.
Location
Currently not on view
Date made
ca 1874
maker
Kahler
ID Number
PH.327714
catalog number
327714
accession number
283554

Gradienter

This unusual instrument is probably best described as a precise level with a graduated horizontal circle. The telescope is provided with a long and graduated level vial, and an ingenious clamp and tangent screw moving against the silvered vertical arc controls its elevation.
Description
This unusual instrument is probably best described as a precise level with a graduated horizontal circle. The telescope is provided with a long and graduated level vial, and an ingenious clamp and tangent screw moving against the silvered vertical arc controls its elevation. This arc extends 20 degrees either way, and is graduated to 10 minutes and read by vernier to 20 seconds. The horizontal circle is silvered, graduated to 15 minutes, and read by opposite verniers with reflecting glasses and magnifiers to 30 seconds. A trough compass and a circular level are mounted above the horizontal circle. The signature reads "Wm. Würdemann, Washington, D.C. 565."
The U. S. War Department transferred this instrument to the Smithsonian in 1931, in a pine box marked "Capt. M. C. Meigs, Washington Aqueduct -Wurdemann--Grading Transit--1854." It was used by Montgomery C. Meigs, the captain in the U. S. Army Corps of Engineers who was tasked with surveying the course of a new Washington Aqueduct in 1853. Since William Würdemann was the leading mathematical instrument maker in Washington at that time, it is reasonable that he was asked to make instruments for this important task.
Location
Currently not on view
date made
1854
maker
Würdemann, William
ID Number
PH.310299
accession number
115960
catalog number
310299

Earth Inductor

As scientists found that even the best dip circles gave unreliable results, they began using earth inductors to determine magnetic dip. In 1912, the Department of Terrestrial Magnetism of the Carnegie Institution of Washington developed a new earth inductor for use at sea.
Description
As scientists found that even the best dip circles gave unreliable results, they began using earth inductors to determine magnetic dip. In 1912, the Department of Terrestrial Magnetism of the Carnegie Institution of Washington developed a new earth inductor for use at sea. It had three key elements: an improved gimbal stand, a means for rotating the coil without disturbing the gimbal rings, and a sensitive galvanometer.
This example marked "D.T.M. C.I.W. E.I. N° 3" is the third Carnegie marine earth inductor. When the Carnegie closed its program in terrestrial magnetism, it was lent to the U.S. Coast and Geodetic Survey. The U.S. Geological Survey acquired it in 1973 when it took over the geomagnetic program of the federal government, and transferred it to the Smithsonian in 1982.
Ref: J. A. Fleming, "Description of the C.I.W. Marine Earth
Inductor," Terrestrial Magnetism 18 (1912): 39-45.
C. W. Hewlett, "Report on the C.I.W. Marine Earth Inductor," Terrestrial Magnetism 18 (1912): 46-48.
Location
Currently not on view
Date made
1912
maker
Carnegie Institution of Washington. Department of Terrestrial Magnetism
ID Number
1982.0671.05
accession number
1982.0671
catalog number
1982.0671.05

Theodolite

This theodolite was made between 1878 when the U. S. Coast Survey became the U. S. Coast and Geodetic Survey, and 1887 when Saegmuller began putting serial numbers on Fauth instruments.
Description
This theodolite was made between 1878 when the U. S. Coast Survey became the U. S. Coast and Geodetic Survey, and 1887 when Saegmuller began putting serial numbers on Fauth instruments. It was described variously as a Reconnaissance and Mining Transit or a Complete Transit Theodolite. Its horizontal and vertical circles, each of 4 inches diameter, are divided on silver, and read by opposite verniers to single minutes. New, it sold for $200. The marks read "Fauth & Co. Washn D.C." and "U.S.C.&G.S. No. 122."
Ref: Fauth & Co., Catalogue of Astronomical and Surveying Instruments (Washington, D.C., about 1877), p. 33.
Location
Currently not on view
maker
Fauth & Co.
ID Number
PH.309668
accession number
106954
catalog number
309668

Engraved woodblock of the "Earliest map showing the location of the Cherokees, 1597"

This engraved woodblock of the “Earliest map showing [the] location of the Cherokees, 1597” was prepared by the Government Printing Office in Washington, D.C.; the image was published as Plate VII (p.128) in an article by Charles Royce (1845-1923) entitled “The Cherokee Nation of
Description
This engraved woodblock of the “Earliest map showing [the] location of the Cherokees, 1597” was prepared by the Government Printing Office in Washington, D.C.; the image was published as Plate VII (p.128) in an article by Charles Royce (1845-1923) entitled “The Cherokee Nation of Indians: a narrative of their official relations with the colonial and federal governments” in the Fifth Annual Report of the Bureau of Ethnology to the Secretary of the Smithsonian, 1883-84.
Location
Currently not on view
date made
1887
publisher
Government Printing Office
Bureau of American Ethnology
printer
U.S. Government Printing Office
author
Royce, Charles C.
block maker
J. J. & Co.
ID Number
1980.0219.1531
catalog number
1980.0219.1531
accession number
1980.0219

Theodolite

This theodolite was made for the U. S. Geological Survey, soon after that agency was organized in 1879. It was transferred to the Smithsonian in 1907. The inscriptions read "No. 172 Edward Kübel, Washington, DC" and "U.S.G.S. 8 IN No.
Description
This theodolite was made for the U. S. Geological Survey, soon after that agency was organized in 1879. It was transferred to the Smithsonian in 1907. The inscriptions read "No. 172 Edward Kübel, Washington, DC" and "U.S.G.S. 8 IN No. 1." The horizontal circle is silvered, graduated to 20 minutes, and read by opposite verniers and magnifiers to 20 seconds. The vertical circle is silvered, graduated to 20 minutes of arc, and read by vernier and magnifier to single minutes.
Edward Kübel (1820-1896) was born in Bavaria, moved to Washington, D.C. around 1849, and became foreman for William Würdemann. He began in business on his own in 1875, advertising that he "continues to manufacture the class of Astronomical and Geodetical Instruments formerly made by Mr. Würdemann." According to an account written in 1884, Kübel employed seven or eight skilled workmen, and his business was principally for the U. S. government.
Ref: Silvio Bedini, "Edward Kübel (1820-1896) Washington, D.C. Instrument Maker," Journal of the Washington Academy of Sciences 85 (1998): 247-279.
Location
Currently not on view
date made
1879-1896
maker
Kübel, Edward
ID Number
PH.247971
accession number
47736
catalog number
247971

Metallic Thermometer

Joseph Saxton, an accomplished scientist, inventor, and mechanician, joined the staff of the U.S. Coast Survey in 1844 at the request of the new Superintendent, Alexander Dallas Bache, and began developing instruments for measuring terrestrial phenomena.
Description
Joseph Saxton, an accomplished scientist, inventor, and mechanician, joined the staff of the U.S. Coast Survey in 1844 at the request of the new Superintendent, Alexander Dallas Bache, and began developing instruments for measuring terrestrial phenomena. Among the first was a metallic thermometer for use in deep water. Bache described this in 1848, saying that it proved “decidedly the most convenient” of the several forms tried. The thermometer coil was “like that of Breguet, only of much stouter material, and of two metals, silver and platinum, soldered together.” And the “plan of registering resembles that adopted by Jurgensen of Copenhagen, and by Montandon of Washington, in their metallic thermometers.”
Several Saxton thermometers were made in the Coast Survey’s instrument shop, and still in use at the start of World War I. This example came to the Smithsonian in 1929. Here the thermometer is held in a brass cylinder that is encased in a hexagonal frame. The cap of the cylinder is marked “SAXTON’S / METALLIC THERMOMETER / 17.” The scale around the circumference of the thermometer extends from -40 to +174 degrees Fahrenheit; one of the two pointers registers the lowest temperature to which the thermometer was exposed.
Ref: [A. D. Bache], Report of the superintendent of the coast survey, showing the progress of the work during the year ending November, 1848, p. 39.
Bache, “Lecture on the Gulf Stream, prepared at the request of the American Association for the Advancement of Science,” Report of the Superintendent of the Coast Survey during the Year 1860, pp. 165-176, on 166.
Location
Currently not on view
date made
1850-1900
Inventor
Saxton, Joseph
ID Number
PH.309672
catalog number
309672
accession number
106954

National Bureau of Standards SP-376 Pocket Rule

This white plastic promotional rule has a scale of centimeters along the top edge, divided to millimeters and numbered by ones from 1 to 15, and a scale of inches along the bottom edge, divided to 1/16" and numbered by ones from 1 to 6.
Description
This white plastic promotional rule has a scale of centimeters along the top edge, divided to millimeters and numbered by ones from 1 to 15, and a scale of inches along the bottom edge, divided to 1/16" and numbered by ones from 1 to 6. The center of the rule is marked: For Good Measure from the National Bureau of Standards (/) Washington, D. C. 20234.
The back of the rule has a table comparing metric and customary units of length, volume, and weight. A second table explains the prefixes used in the metric system and gives conversions to yards, quarts, and pounds. The back is marked: U.S. DEPARTMENT OF COMMERCE (/) National Bureau of Standards (/) Washington, D. C. 20234 (/) NBS Special Publication 376 (/) Issued December 1972 (/) For sale by the Superintendent of (/) Documents, U.S. Government Printing (/) Office, Washington, D.C. 20402 (/) (Order by SD Catalog No. C13.10:376). (/) Price 25 cents.
In order to encourage Americans to adopt the metric system, NBS (now the National Institute of Standards and Technology) distributed this rule in the 1970s both individually and as part of a "metric kit," NBS Special Publication 410, which also included four informational pamphlets and a conversion card.
Location
Currently not on view
date made
1972
maker
National Bureau of Standards
ID Number
1990.3146.02
catalog number
1990.3146.02
nonaccession number
1990.3146

Chromolithograph of "Great Basin from the Summit of Tejon Pass"

This tinted lithograph of “Great Basin from the Summit of Tejon Pass” was produced after an original sketch by expedition artist Charles Koppel (fl. 1853-1865). It was printed as Plate V in Volume V, Part II following page 50 in the "Geological Report by W. P.
Description (Brief)
This tinted lithograph of “Great Basin from the Summit of Tejon Pass” was produced after an original sketch by expedition artist Charles Koppel (fl. 1853-1865). It was printed as Plate V in Volume V, Part II following page 50 in the "Geological Report by W. P. Blake, Geologist and Minerologist to the Expedition," as part of the “Routes in California, to Connect with the Routes near the Thirty–Fifth and Thirty–Second Parallels, Explored by Lieutenant R. S. Williamson, Corps of Topographical Engineers, in 1853."
The volume was printed as part of the "Reports of Explorations and Surveys, to ascertain the most practicable and economical route for a railroad from the Mississippi River to the Pacific Ocean" in 1856 by A. P. O. Nicholson (1808-1876) of Washington, D.C.
Location
Currently not on view
date made
1856
publisher
U.S. War Department
printer
Tucker, Beverley
author
Williamson, Robert Stockton
original artist
Koppel, Charles
Koppel, Charles
graphic artist
unknown
publisher
U.S. Army Corps of Engineers Topographic Command
original artist
Koppel, Charles
ID Number
GA.10729.33
accession number
62261

Heliotrope (Telescopic)

This instrument consists of a refracting telescope surmounted by a round mirror that can reflect a beam of light along the optical axis of the telescope. A screw base allows it to be attached to a tree or post.
Description
This instrument consists of a refracting telescope surmounted by a round mirror that can reflect a beam of light along the optical axis of the telescope. A screw base allows it to be attached to a tree or post. Fauth advertised a heliostat of this sort in 1877, describing it "As made by us for the United States Coast Survey." This example was made before 1887 when G. N. Saegmuller began putting serial numbers on Fauth instruments. New, it cost $30. The U. S. Geological Survey was established in 1879 and transferred this instrument to the Smithsonian in 1907. The inscriptions read "FAUTH & CO. WASHN D.C." and "U.S.G.S. No 6."
Ref: Fauth, Catalogue of Astronomical and Surveying Instruments (Washington, D.C., 1877), p. 43.
Location
Currently not on view
maker
Fauth & Co.
ID Number
PH.247922
catalog number
247922
accession number
47736

Gradienter

This gradienter marked "Geo. Shilling Washn D.C." and "U.S.G.S. No 4" was made after 1882 when George Shilling began in business, and before 1907 when the U.S. Geological Survey transferred it to the Smithsonian.
Description
This gradienter marked "Geo. Shilling Washn D.C." and "U.S.G.S. No 4" was made after 1882 when George Shilling began in business, and before 1907 when the U.S. Geological Survey transferred it to the Smithsonian. The horizontal circle and vertical arc are silvered, graduated to 30 minutes, and read by verniers to single minutes. A level vial sits atop the telescope; a circular level sits on the horizontal circle, obscuring most of Shilling's signature.
George Shilling (1844–1917) was born and educated in Norway and moved to the United States in 1867. In 1882, after working in several American instrument shops, he went into business on his own, manufacturing surveying and astronomical instruments. His shop was in Washington, D.C., and the federal government was his biggest customer.
Location
Currently not on view
maker
Shilling, George
ID Number
PH.247907
catalog number
247907
accession number
47736

Gravity Pendulums (3)

These are some of the earliest examples of the pendulums that Thomas C. Mendenhall designed soon after he became superintendent of the U.S. Coast and Geodetic Survey. One is marked "U.S.C. & G.S. A1"; the second "U.S.C. & G.S. A2"; and the third "U.S.C.& G.S.
Description
These are some of the earliest examples of the pendulums that Thomas C. Mendenhall designed soon after he became superintendent of the U.S. Coast and Geodetic Survey. One is marked "U.S.C. & G.S. A1"; the second "U.S.C. & G.S. A2"; and the third "U.S.C.& G.S. A3." Each is also stamped with the date "1891." The dummy pendulum (presumably marked "A0") is missing.
Each pendulum is made of a copper-aluminum alloy, with a flat stem supporting a lenticular bob. Each has a period of swing of nearly ½ second, so that a coincidence between the pendulum and a chronometer would occur every 5 or 6 minutes. These pendulums are similar to those designed by von Sterneck of Austria in the late 1880s, and widely used in Europe. Mendenhall, however, reversed the mode of support, putting the plane surface on the pendulum, and the knife edge on the corresponding stand. This design, he claimed, made the pendulums less liable to accidental injury.
The Coast and Geodetic Survey produced many sets of Mendenhall apparatus, and used them until the 1930s. It transferred this example to the Smithsonian in 1955.
Ref: Victor Lenzen and Robert Multhauf, "Development of Gravity Pendulums in the 19th Century," United States National Museum Bulletin 240 (1965): 301-348.
C. H. Swick, Modern Methods of Measuring the Intensity of Gravity (Washington, D.C.: United States Coast and Geodetic Survey, 1921).
T. C. Mendenhall, "Determination of Gravity with the New Half-Second Pendulum," Report of the Superintendent of the U.S. Coast and Geodetic Survey for 1890-91, part 2, pp. 503-564.
Location
Currently not on view
date made
1891
ID Number
PH.314639
accession number
208213
catalog number
314639

Universal Magnetometer with Earth Inductor

This instrument was designed and produced by the Department of Terrestrial Magnetism of the Carnegie Institution of Washington. Unlike the Carnegie's original universal magnetometer, this one is equipped with an earth inductor to determine dip.
Description
This instrument was designed and produced by the Department of Terrestrial Magnetism of the Carnegie Institution of Washington. Unlike the Carnegie's original universal magnetometer, this one is equipped with an earth inductor to determine dip. It is marked "DEPARTMENT TERRESTRIAL MAGNETISM Carnegie Institution of Washington E.I. - M. No. 28." It was completed in 1914 and used in many locations around the world. The U.S. Coast and Geodetic Survey used it in South and Central America in the early 1940s. The U.S. Geological Survey acquired it in 1973, when that agency took charge of the federal program in geomagnetism, and transferred it to the Smithsonian in 1982.
Ref: J. A. Fleming and J. A. Widner, "Description of the C.I.W. Combined Magnetometer and Earth Inductor," Terrestrial Magnetism 18 (1913): 105-110.
Carnegie Institution of Washington. Department of Terrestrial Magnetism. Land Magnetic Observations, 1911-1913 (Washington, D.C., 1915), pp. 9-12.
U. S. Coast and Geodetic Survey, Magnetic Observations in the American Republics 1941-44 (Washington, D.C., 1946), p. 16.
Location
Currently not on view
Date made
1914
maker
Carnegie Institution of Washington. Department of Terrestrial Magnetism
ID Number
1982.0671.07
accession number
1982.0671
catalog number
1982.0671.07

Chromolithograph of "Mirage on the Colorado Desert"

This tinted lithograph of “Mirage on the Colorado River” was prepared after an original sketch by ah expedition geologist and artist William P. Blake (1826-1910). It was printed as Plate XII in Volume V, Part II following page 250 in the "Geological Report by W. P.
Description
This tinted lithograph of “Mirage on the Colorado River” was prepared after an original sketch by ah expedition geologist and artist William P. Blake (1826-1910). It was printed as Plate XII in Volume V, Part II following page 250 in the "Geological Report by W. P. Blake, Geologist and Minerologist to the Expedition," as part of Volume V, Part II of the “Routes in California, to Connect with the Routes near the Thirty–Fifth and Thirty–Second Parallels, Explored by Lieutenant R. S. Williamson, Corps of Topographical Engineers, in 1853."
The volume was printed as part of the "Reports of Explorations and Surveys, to ascertain the most practicable and economical route for a railroad from the Mississippi River to the Pacific Ocean" in 1856 by A. P. O. Nicholson (1808-1876) of Washington, D.C.
Location
Currently not on view
date made
1856
publisher
U.S. War Department
printer
Tucker, Beverley
expedition leader
Williamson, Robert Stockton
author
Blake, William Phipps
original artist
Blake, William Phipps
graphic artist
unknown
publisher
U.S. Army Corps of Engineers Topographic Command
ID Number
GA.10729.32
accession number
62261

Lithograph of "Indian Antiquities" pottery artifacts

P. S. Duval and Company (ca 1840s-1858) of Philadelphia produced this chromolithographic print from an original illustration by John M. Stanley (1814-1872).
Description (Brief)
P. S. Duval and Company (ca 1840s-1858) of Philadelphia produced this chromolithographic print from an original illustration by John M. Stanley (1814-1872). The image of "Wooden Ware, etc." was published as Plate X in Volume 2, following page 116 of Appendix E (Indian Antiquities) by Thomas Ewbank (1792-1870) in the report describing "The U.S. Naval Astronomical Expedition to the Southern Hemisphere during the Years 1849, 1850, 1851, and 1852" by James M. Gillis (1811-1865). The volume was printed in 1855 by A. O. P. Nicholson (1808-1876) of Washington, D.C.
Location
Currently not on view
date made
1855
original artist
Wallis, O. J.
Dreser, William
Herbst, Francis
graphic artist
Sinclair, Thomas
Dougal, William H.
Duval, Peter S.
printer
Nicholson, A. O. P.
publisher
United States Navy
original artist
Richard, John H.
Stanley, John Mix
Siebert, Selmar
author
Cassin, John
Ewbank, Thomas
Baird, Spencer Fullerton
Gilliss, James Melville
ID Number
2007.0204.01
accession number
2007.0204
catalog number
2007.0204.01

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