Index by Makers & Retailers

This yellow paper circular rule consists of two discs, one with a protruding tab for rotating the disc, held together with a metal grommet. The device reduces the observed volume of a gas to the corresponding volume under standard conditions (0°C, 760 mm pressure).
Description
This yellow paper circular rule consists of two discs, one with a protruding tab for rotating the disc, held together with a metal grommet. The device reduces the observed volume of a gas to the corresponding volume under standard conditions (0°C, 760 mm pressure). Scales for temperatures from 10 degrees to 35 degrees centigrade and for pressures from 700 to 790 mm run along the lower edge of the rule. Setting the device for an observed temperature and pressure reveals a volume factor and the logarithm of the volume factor in the lower interior of the instrument. The factor is multiplied by the observed volume on the scale along the upper edge of the instrument to arrive at the reduced volume.
The instrument is marked: CentralScientificCo. (/) CENCO (/) CHICAGO U.S.A. (/) GAS VOLUME REDUCTION CHART. It is also marked: Copyrighted 1921, by Central Scientific Co. An advertisement for the "new rotary CENCO hyvac pump," available from Central Scientific's Bulletin No. 92, appears on the back of the device. For another instrument made by Central Scientific Co., see 1982.0147.02.
The front of the instrument indicates that Prof. E. M. Jones of Adrian College in Adrian, Mich., proposed its design. Jones also wrote "Laboratory Versus Recitation," School Science and Mathematics 8 (1923): 749–759. In 1920, he was appointed to the city of Adrian's first water board.
Reference: "Adrian H2O: Over One Hundred Years," http://www.ci.adrian.mi.us/Services/Utilities/History.aspx.
Location
Currently not on view
date made
after 1921
maker
Central Scientific Company
ID Number
1979.3074.02
nonaccession number
1979.3074
catalog number
1979.3074.02
This ten-inch mahogany duplex slide rule is faced with yellowed white celluloid and held together with corroded L-shaped end pieces. On one side, the base has A and D scales, with B, S, and C scales on the slide. The left end of the slide is marked in red: < 4092 >.
Description
This ten-inch mahogany duplex slide rule is faced with yellowed white celluloid and held together with corroded L-shaped end pieces. On one side, the base has A and D scales, with B, S, and C scales on the slide. The left end of the slide is marked in red: < 4092 >. The bottom of the base is marked in red: KEUFFEL & ESSER CO. N.Y.; PAT. JUNE 5. '00 DEC. 22. '08. On the other side, the base has LL1, LL2, LL3, D, and L scales, with C, T, and CI scales on the base. The indicator is frameless glass with plastic edges fastened with screws. One edge is marked: K&E.CO.N.Y. (/) PAT.8.17.15.
Keuffel & Esser of New York offered model 4092 from about 1909 to 1921. The frameless glass indicator was introduced in 1915. The rule sold for $8.00 from 1909 through 1915 and for $12.50 in 1921. This example fits in a cardboard case covered with black leather and marked: KEUFFEL & ESSER Co. (/) LOG. LOG. (/) SLIDE RULE. For instructions, see 1981.0993.02. Later examples of K&E Log Log slide rules in the collections include 1984.1068.02, MA.318479, 1990.0687.01, 1986.0790.03, and 1987.0085.01.
The donor, William J. Ellenberger (1908–2008), studied electrical and mechanical engineering at The George Washington University between 1925 and 1934. He then worked for the Potomac Electric Power Company and the National Bureau of Standards. During World War II, he served in the U.S. Army Signal Corps. He was a civilian construction management engineer for the army from 1954 to 1968, when he became a private consultant.
References: Catalogue of Keuffel & Esser Co., 33rd ed. (New York, 1909), 312; Catalogue of Keuffel & Esser Co., 35th ed. (New York, 1915), 304; Catalogue of Keuffel & Esser Co., 36th ed. (New York, 1921), 240; "The GW Engineering Hall of Fame 2006 Inductees," http://www.weas.gwu.edu/ifaf/hall_of_fame_inductees_2006.php.
Location
Currently not on view
date made
1915-1921
maker
Keuffel & Esser Co.
ID Number
1981.0933.01
catalog number
1981.0933.01
accession number
1981.0933
This eight-page pamphlet was received with 1981.0933.01. It is undated, but Clark McCoy reports the text was written around 1914. This copy was probably printed later, around 1920.
Description
This eight-page pamphlet was received with 1981.0933.01. It is undated, but Clark McCoy reports the text was written around 1914. This copy was probably printed later, around 1920. It explains the scales on K&E's model 4092 slide rule, works eleven sample problems, and advertises K&E calculating devices.
Reference: Clark McCoy, ed., "K&E Log Log Duplex Slide Rules," http://www.mccoys-kecatalogs.com/KEManuals/manuals.htm#4092.
Location
Currently not on view
date made
ca 1920
maker
Keuffel & Esser Co.
ID Number
1981.0933.02
accession number
1981.0933
catalog number
1981.0933.02
This 92-page salmon-colored paperback book was received with 1981.0933.03. Its citation information is: William E. Breckenridge, The Polyphase Duplex Slide Rule: A Self Teaching Manual (New York: Keuffel & Esser Co., 1924). Breckenridge earned an A.M.
Description
This 92-page salmon-colored paperback book was received with 1981.0933.03. Its citation information is: William E. Breckenridge, The Polyphase Duplex Slide Rule: A Self Teaching Manual (New York: Keuffel & Esser Co., 1924). Breckenridge earned an A.M. in mathematics from Columbia University in New York City, was chair of the mathematics department at Stuyvesant High School around 1909–1910, served as an associate editor of The Mathematics Teacher from 1913 to 1928, and apparently also taught at Columbia.
Breckenridge explains the basic features and operations of the slide rule, discusses the history and theory of slide rules, provides methods for solving "advanced problems," treats plane trigonometry, solves triangle problems, and provides "typical examples relating to various occupations," such as secretarial work, excavation, and retail. Finally, he shows how to set the slide rule to solve various mechanical formulas and lists tables of equivalents for the basic C and D scales. In chapter one, a previous reader, presumably the donor, William J. Ellenberger, has checked off the examples and filled in the answers to the problems. An advertisement for K&E's other specialty and general slide rules appears at the back of the book. This manual sold for 50 cents.
A digitized copy of The Polyphase Duplex Slide Rule is available at http://sliderulemuseum.com/Manuals/M205_KE_PolyphaseDuplexSlideRule_4088-3_1924.pdf.
Reference: Keuffel & Esser Co., Price List, Applying to General Catalogue, 36th ed. (New York, 1925), 44, 90.
Location
Currently not on view
date made
1924
author
Breckenridge, William E.
ID Number
1981.0933.04
accession number
1981.0933
catalog number
1981.0933.04
This 72-page salmon-colored paperback book was received with 1981.0933.03 and 1981.0933.05. Its citation information is: William Cox, The Mannheim (Polyphase) and the Duplex (Polyphase-Duplex) Slide Rules Complete Manual (New York: Keuffel & Esser Co., 1920).
Description
This 72-page salmon-colored paperback book was received with 1981.0933.03 and 1981.0933.05. Its citation information is: William Cox, The Mannheim (Polyphase) and the Duplex (Polyphase-Duplex) Slide Rules Complete Manual (New York: Keuffel & Esser Co., 1920). It sold for 50 cents. William Cox helped introduce the Mannheim slide rule to the United States, invented the duplex slide rule, and served as a mathematical consultant to Keuffel & Esser Company of New York, thus launching that firm into pioneering the American manufacture of slide rules. He first wrote this manual in 1891 and revised it in 1917, adding instructions for K&E's Polyphase Duplex slide rule (model 4088-3).
A notice inside the front cover explained how K&E had updated the Mannheim line (models 4031–4056) since Cox first wrote the manual. Cox thoroughly described the characteristics, operations, and scales of Mannheim and Polyphase (which was especially useful for problems involving powers or roots) slide rules. He provided a lengthy table of equivalents for the base scales, C and D, as well as methods for working out mechanical and other formulas. He then went through a similar discussion for the eight-inch Duplex rule (model 4065) and for the ten-inch Polyphase-Duplex rule (model 4088). A supplement by J. M. Willard of the State College of Pennsylvania addressed the solution of problems in plane trigonometry. Finally, there are advertisements for K&E's general and specialty slide rules, the frameless indicator patented in 1915, a magnifier, and surveying equipment.
References: William Cox, "Engineer's Slide-Rule" (U.S. Patent 460,930 issued October 6, 1891); Florian Cajori, A History of the Logarithmic Slide Rule and Allied Instruments (New York: Engineering News Publishing Company, 1909); Dieter von Jezierski, Slide Rules: A Journey Through Three Centuries, trans. Rodger Shepherd (Mendham, N.J.: Astragal Press, 2000), 14, 35; Clark McCoy, ed., "K&E Slide Rule Manuals," http://www.mccoys-kecatalogs.com/KEManuals/manuals.htm.
Location
Currently not on view
date made
1920
author
Cox, William
ID Number
1981.0933.06
accession number
1981.0933
catalog number
1981.0933.06
This instrument consists of a wooden cylinder covered with paper scales, wooden handles at the ends of the cylinder, and a metal sleeve lined with felt. The sleeve, which is painted maroon, holds the cylinder. A slot 1.5cm wide and a paper scale run the length of the sleeve.
Description
This instrument consists of a wooden cylinder covered with paper scales, wooden handles at the ends of the cylinder, and a metal sleeve lined with felt. The sleeve, which is painted maroon, holds the cylinder. A slot 1.5cm wide and a paper scale run the length of the sleeve. For detailed information, see MA.333636. The only difference between the instruments is that the sleeve on this example has been decoratively painted in gold. Keuffel & Esser of New York sold this model for $5.00 from 1903 to 1923.
The School of Forestry of the University of Montana in Missoula donated this example to the Smithsonian in 1983. The School of Forestry was established at the State University of Montana (later Montana State University, now the University of Montana) in 1913. By 1921, courses taught in the school of forestry included—subject to student demand—a course on the slide rule. The course covered the theory and use of the Mannheim, Stadia, Polyphase, and Log rules.
References: State University of Montana, Annual Catalogue (Missoula, 1921), 125; "The Jack Burton Collection," Journal of the Oughtred Society 2, no. 1 (1993): 15–18; Bob Otnes, "The 31st (1903) and 32nd (1906) Editions of the K&E Catalogue" Journal of the Oughtred Society 11, no. 2 (2002): 24–32; Bob Otnes, "Keuffel & Esser Slide Rules 1909" Journal of the Oughtred Society 12, no. 1 (2003): 25–32.
Location
Currently not on view
date made
1903-1923
maker
Keuffel & Esser Co.
ID Number
1983.0472.01
catalog number
1983.0472.01
accession number
1983.0472
Edward Wager-Smith (1872–1920), a native of New Jersey, graduated from the Spring Garden Institute in Philadelphia in 1889 and in 1893 gained employment as a draftsman for Merritt & Company, a structural steel firm in Philadelphia.
Description
Edward Wager-Smith (1872–1920), a native of New Jersey, graduated from the Spring Garden Institute in Philadelphia in 1889 and in 1893 gained employment as a draftsman for Merritt & Company, a structural steel firm in Philadelphia. As he rose to the position of structural engineer by 1910, he invented the Wager Timber Scale and the Merritt Beam Scale (1987.0108.02). This rule assisted architects and construction workers with computing the strength of wooden beams. It has 11 scales: A, thickness in inches; B, depth in inches; C, spacing in feet; D, span in feet; E, fibre [sic] stress in pounds per square inch; F, load in pounds per square foot; G, type of wood; H, depth in inches; I, method of loading; J, span in feet; and K, fibre stress in pounds per square inch. Scales A-B-C-D-E-F are meant to be used together, as are scales A-B-I-J-K-L and scales G-H-I-J.
The back of the instrument gives government recommendations and regulations for safe stresses on wooden beams and a moisture classification chart by A. L. Johnson, "Economical Designing of Timber Trestle Bridges," U.S. Department of Agriculture Division of Forestry Bulletin No. 12 (Washington, D.C.: Government Printing Office, 1902), 11–12. The instrument fits in an orange paper envelope, which has instructions on its flap.
This rule was distributed by the John Howard Herrick Company of Baltimore, a dealer of hardware and building materials. A photographer by avocation, Wager-Smith also designed the Wager Exposure Scale (patented in 1901—see 1993.0386.01) for correctly timing photographic exposures and the Wager Definition Scale (copyright 1905—see 1993.0386.02 and PG*4750) for determining the longest exposure allowable to produce clearly defined images of moving objects.
The instrument is marked on the front and on the envelope: The Wager Timber Scale (/) FOR COMPUTING THE STRENGTH OF WOODEN BEAMS. It is also marked in both places: THE JOHN HOWARD HERRICK CO. (/) BALTIMORE, MD., U.S.A. It is also marked in both places: PRICE ONE DOLLAR. It is also marked on the front: PAT. JULY 1ST, 1902. This refers to a patent for a "slide-scale" resembling the Merritt Beam Scale and issued on that date to James S. Merritt of Philadelphia. The Wager Timber Scale was advertised for sale from Philadelphia by January 1905 and was mentioned in a textbook as late as 1921.
References: "Wager-Smith, E.," National Cyclopaedia of American Biography (New York: James T. White, 1926), xix:136–137; "Notes and Comment," The New Photo-Miniature 6, no. 3 (1904): 558; James S. Merritt, "Slide Scale" (U.S. Patent 703,437 issued July 1, 1902); "The Wager Timber Scale," Municipal Journal and Engineer 18, no. 1 (1905): 48; "Municipal and Technical Literature: New Publications," Municipal Engineering 29, no. 6 (1905): 448–449; Ernst McCullough, Practical Structural Design (New York: U.P.C. Co., 1921), 81.
Location
Currently not on view
date made
1902-1921
maker
Wager-Smith, Edward
ID Number
1987.0108.01
accession number
1987.0108
catalog number
1987.0108.01
This paper linear slide rule was designed to assist architects and construction workers with computing the strength of steel beams.
Description
This paper linear slide rule was designed to assist architects and construction workers with computing the strength of steel beams. There are seven scales: A, safe load in pounds per square foot; B, section of beams; C, spacing of beams in feet; D, span in feet; E, total safe load in net tons; F, manner of loading; G, span in feet. Scales A-B-C-D are meant to be used together, as are scales E-B-F-G. The back of the instrument gives instructions. The instrument fits in an orange paper envelope.
The front of the instrument and the envelope are marked: The Merritt Beam Scale (/) FOR COMPUTING THE STRENGTH OF STEEL BEAMS. They also are both marked: THE JOHN HOWARD HERRICK CO. (/) BALTIMORE, MD., U.S.A. and PRICE ONE DOLLAR. The front of the instrument also is marked: Copyright (/) 1899 (/) by (/) James S. Merritt (/) M.E. and PAT. JULY 1ST, 1902. This last mark refers to a patent for a "slide-scale" taken out on that date by the mechanical engineer James S. Merritt of Philadelphia. The Merritt Beam Scale was mentioned in a textbook as late as 1921.
Although the instrument is named for Merritt, its invention is credited to Edward Wager-Smith (1872–1920), who worked for Merritt & Co. of Philadelphia from 1893 to 1910. See also his Wager Timber Scale (1987.0108.01).
References: James S. Merritt, "Slide Scale" (U.S. Patent 703,437 issued July 1, 1902); "Wager-Smith, E.," National Cyclopaedia of American Biography (New York: James T. White, 1926), xix:136–137; Ernst McCullough, Practical Structural Design (New York: U.P.C. Co., 1921), 81.
Location
Currently not on view
date made
1902-1921
maker
Wager-Smith, Edward
ID Number
1987.0108.02
accession number
1987.0108
catalog number
1987.0108.02
This instrument consists of a plastic disc riveted to a plastic base. It is similar to a paper instrument of the same name (see 1987.0221.01).The base, just outside the disc, has a logarithmic scale that represents readings in feet of a stadia rod used with a transit telescope.
Description
This instrument consists of a plastic disc riveted to a plastic base. It is similar to a paper instrument of the same name (see 1987.0221.01).
The base, just outside the disc, has a logarithmic scale that represents readings in feet of a stadia rod used with a transit telescope. The base, just outside the disc, has a logarithmic scale that represents readings in feet of a stadia rod used with a transit telescope. The edge of the disc has two scales of functions of angles. Applying the first scale multiplies the stadia reading by 1/2 sin 2A, where A is the vertical angle of the transit telescope. This multiplication gives the difference in elevation of the transit and the stadia rod, in feet. The second scale multiplies the stadia reading by the square of cos A, to find the horizontal distance of the rod in feet.
The back of the instrument bears an advertisement for W. & L. E. Gurley, a maker of instruments in Troy, N.Y. A transit is depicted; it appears to be Gurley's Explorers [sic] precise transit. This was the smallest and lightest Gurley transit, shown in the Gurley catalogs for 1910 and 1912 (with a different image than is on this rule) and 1921 (with same image as on rule), but not the 1928 catalog. The 1921 catalog advertises the celluloid form of the Cox stadia computer and indicates that it sold for 75 cents.
A maker's mark at the bottom of the back of the computer is not legible, but the firm of Whitehead and Hoag of Newark, N.J., is known to have manufactured the instrument for Gurley in the second quarter of the 20th century.
References: W. & L. E. Gurley, Catalogue of Gurley Engineering Instruments (Troy, N.Y., 1921), 50; Florian Cajori, "A Stadia Slide-Rule," Engineering News 43 (April 5, 1900): 232; Laine Farley, "Whitehead & Hoag Celluloid Bookmarks," http://www.bibliobuffet.com/on-marking-books-columns-195/archive-index-on-marking-books/1039-whitehead-a-hoag-celluloid-bookmarks-053109.
Location
Currently not on view
date made
ca 1921
maker
W. & L. E. Gurley
ID Number
1987.0221.02
accession number
1987.0221
catalog number
1987.0221.02
Leather belting produced from cowhide tanned in a solution with ground oak bark had been manufactured in New York City from the 19th century.
Description
Leather belting produced from cowhide tanned in a solution with ground oak bark had been manufactured in New York City from the 19th century. By the end of the century, the firm of Fayerweather & Ladew in Glen Cove, N.Y., had developed methods of waterproofing leather belting so that it could be used in wet and humid conditions. After the death of Edward R. Ladew in 1905, the firm operated as Estate of Edward R. Ladew. It was renamed Edw. R. Ladew Co., Inc., about 1919, and in 1920 it was sold to Graton & Knight Manufacturing Co. of Worcester, Mass.
To publicize its products, the company began distributing the Ladew Belting Strength Computer in 1914. This tan circular slide rule was made by the Whitehead & Hoag Company of Newark, N.J., under a June 6, 1905, patent for printing on pyroxylin (celluloid). It has a rotating disc and another rotating circular segment, pivoted about a metal rivet and attached to a rectangular celluloid base. The logarithmic scales allow computation of the horsepower a leather belt of known quality will transmit, given the width of the belt, the diameter of the pulley, and the rate of revolution of the pulley. The scales also make it possible to calculate the working strain of the belt, according to the kind of belt used and the horsepower transmitted. Instructions are provided on the back of the instrument.
For a linear slide rule for computations relating to cloth belting, see the Computer for Belting and Computer for Shafting made by J. A. & W. Bird & Co. of Boston (1988.0323.02). For information on Whitehead & Hoag, see 1984.1080.01.
References: Frank R. Norkross, A History of the New York Swamp (New York: The Chiswick Press, 1901), 103–107; Richard E. Roehm, "Process of Printing Upon Pyroxylin Materials" (U.S. Patent 791,503 issued June 6, 1905); Library of Congress, Catalogue of Copyright Entries, part 1, group 2, n.s., vol. 11, no. 8 (Washington, D.C., 1914): 754; "Ladew Belt Mill Sold," New York Times (February 13, 1920), 23; "Business Changes," Steam 25, no. 4 (May 1920): 145; accession file.
Location
Currently not on view
date made
1914-1920
maker
Whitehead & Hoag Company
ID Number
1988.0350.01
accession number
1988.0350
catalog number
1988.0350.01
This brass circular slide rule is the size and shape of a pocket watch. The base is a silver-colored disc surrounding a rotating brass ring.
Description
This brass circular slide rule is the size and shape of a pocket watch. The base is a silver-colored disc surrounding a rotating brass ring. The silver-colored indicator, which moves the brass ring and a forked pointer screwed to the center of the instrument, is attached to a small suspension ring. The indicator extends around the back of the instrument for use in reading the scales inscribed there.
Three scales are on the front: two logarithmic scales on the outermost rings (the equivalent of D and C scales on a linear slide rule) and a two-part scale for square roots around the silver-colored circle at the center (corresponding to the A scale on a linear slide rule). Around the center is engraved: CALCULIMETRE G. CHARPENTIER; BREVETÉ S.G.D.G. The serial number 35 is engraved below "Charpentier." The back of the instrument bears a scale of equal parts, a logarithmic scale, and an innermost scale of equal parts. The indicator arm is engraved: FRANCE.
Around 1882, G. Charpentier patented this design in France (as indicated by the "breveté" mark) and Great Britain. Several French instrument makers manufactured the device. In the United States, the Calculimetre was retailed for $5.00 by Keuffel & Esser from 1895 to 1927 and by Dietzgen from 1904 to 1931. According to the donor, John W. Olson, a Wall Street investment banker and collector of "unusual items" named Edward Hamilton Leslie purchased this slide rule around 1925.
References: Robert K. Otnes, "The Charpentier Calculator," Journal of the Oughtred Society pilot issue, vol. 0, no. 0 (1991): 9–11; Florian Cajori, A History of the Logarithmic Slide Rule and Allied Instruments (New York: Engineering News Publishing Company, 1909), 94; Peter M. Hopp, Slide Rules: Their History, Models, and Makers (Mendham, N.J.: Astragal Press, 1999), 81, 161, 193; Catalogue & Price List of Eugene Dietzgen Co., 7th ed. (Chicago, 1904), 174; Catalogue of Keuffel & Esser Co., 33rd ed. (New York, 1909), 307.
Location
Currently not on view
date made
ca 1925
ID Number
1995.0261.01
accession number
1995.0261
catalog number
1995.0261.01
This circular slide rule consists of a silver-colored metal dial, 8-1/2" wide, mounted on a silver-colored metal disc. Three oblong holes on the base disc permit the reading of trigonometric scales on a white celluloid and cardboard disc that is between the metal discs.
Description
This circular slide rule consists of a silver-colored metal dial, 8-1/2" wide, mounted on a silver-colored metal disc. Three oblong holes on the base disc permit the reading of trigonometric scales on a white celluloid and cardboard disc that is between the metal discs. The celluloid disc is marked: COPYRIGHTED (/) L. ROSS, SAN FRANCISCO (/) PATENTS PENDING.
On the front of the instrument, the top dial is divided along the outer edge into 400 equal parts. In each quadrant of the dial, the scale is marked from 100 to 1,000, with every tenth division marked. Inside of this scale, there is a spiral scale with 25 coils divided logarithmically from 0 to 1,000, making the rule equivalent to a linear slide rule about 50 feet long. These scales are marked in purple and are worn away in several places, including around much of the edge and underneath where the indicators rest.
Affixed to the center of the disc is a brown metal linear rule, 1-1/8" wide, marked with N, M (Sum), D (Difference), and Root scales. This rule is made of three pieces, but the center no longer slides. Also affixed to the center is a yellow celluloid hairline indicator, 3/4" wide, and a second yellow celluloid indicator, 1-1/2" wide. This indicator is marked on the left side by fours from 0 to 100, labeled Quadrants, and on the right side at varying intervals from 100 to 1,000, labeled Nos. It is attached to a metal handle lined with yellow-white celluloid. The handle is also attached to a pivot at the center back of the instrument. The handle is marked: THE ROSS (/) PRECISION COMPUTER (/) Computer Mfg. Co. (/) San Francisco. The handle has reminders for setting the device for multiplication, division, and proportion, and there is a thumbscrew for making adjustments.
The instrument also came with a loose, wedge-shaped piece of yellow celluloid with a hole at one end for attaching to the center of the computer. It is marked with the names of various trigonometric functions and various angles. The round part of the instrument fits into a black leather case with two snaps, stamped both inside and outside: x THE ROSS ÷ (/) PRECISION COMPUTER (/) COMPUTER MFG. CO. (/) SAN FRANCISCO U.S.A. (/) PAT. PEND. COPYRIGHTED. An instruction manual (1996.3077.02) and a letter and advertising literature (1966.3077.03) sent to the purchaser, Roy Kegerreis of New York, were received with this instrument. The letter is dated July 31, 1918, and the manual was copyrighted in 1919.
Louis Ross of San Francisco designed three circular slide rules in the 1910s: the Precision Computer, the Meridi-o-graph, and the Rapid Computer. Advertisements and reports of surviving instruments indicate that the Precision Computer varied in appearance and size.
The Computer Manufacturing Company sold the Precision Computer for $20.00. A clamp for mounting the rule above a desk sold separately for $2.50. The company claimed its customers included the Panama Canal Commission, DuPont Powder Works, and General Electric. The company's offices were originally located on 25 California Street in San Francisco; in 1921, the factory moved from 268 Market to 340 Sansome. The Sansome address is handwritten inside the instruction manual, suggesting Kegerreis learned about the computer in 1918 but did not purchase one until 1921.
Dr. Roy Kegerreis (1886–1968) obtained his BS in Electrical Engineering from The Ohio State University in 1907, his MS in Mathematics from Harvard, and his PhD in Physics from the University of Michigan in 1917. At the time he purchased this slide rule, he apparently was living in New York City. Kegerreis went on to get an MD in 1934, and he worked for many years as a radiologist. This slide rule was given to the Smithsonian by his daughter, in his memory.
References: Accession file; Edwin J. Chamberlain, "Long-Scale Slide Rules," Journal of the Oughtred Society 8, no. 1 (1999): 24–34, "Long-Scale Slide Rules Revisited," 13, no. 1 (2004): 23–43, and "Circular Slide Rules with Very Long Scales," 17, no. 1 (2008): 52; "A Five-Place Calculating Device," Electrical World 66, no. 11 (1915): 604; "San Francisco Companies Move to New Quarters," San Francisco Business 3, no. 19 (November 11, 1921): 22; "Ross Precision Computer," NIST Museum Digital Archives, http://nistdigitalarchives.contentdm.oclc.org/cdm/ref/collection/p15421coll3/id/266.
Location
Currently not on view
date made
ca 1921
maker
Computer Manufacturing Company
ID Number
1996.3077.01
nonaccession number
1996.3077
catalog number
1996.3077.01
This sixteen-inch one-sided wooden slide rule has scales labeled A and D on the base. There are scales labeled B and C on one side of the slide, with S, L, and T scales on the other side.
Description
This sixteen-inch one-sided wooden slide rule has scales labeled A and D on the base. There are scales labeled B and C on one side of the slide, with S, L, and T scales on the other side. The A and B scales are divided logarithmically from 1 to 10 twice; the C and D scales are divided logarithmically from 1 to 10 once. The S scale runs from 0 to 80 degrees, and the T scale from 0 to 45 degrees. The L scale is divided logarithmically from 0 to 10. A scale of 40 centimeters is divided to millimeters on the front edge. A scale of 16 inches divided to 1/16-inch is on the other, beveled edge. The scales are all on white celluloid. A table of numerical ratios and equivalences is attached to the back of the rule. A frameless glass indicator was received with the instrument and noted during cataloguing around 1965, but it is no longer present.
The top of the base is marked in red: PAT. JUNE 5, 1900; KEUFFEL & ESSER CO. N.Y.; MADE IN U.S.A. The right end of the slide is marked in red: < 4045 >. The left end of the back of the slide and the left end of the centimeter scale on the base are both marked with a serial number: 46538. The file for the instrument records that the indicator was marked with a patent date of 8.17.15. Compare to MA.322761 and 1987.0634.01.
Keuffel & Esser first advertised the model 4045 Mannheim slide rule in 1906 and stopped selling it between 1936 and 1939. The date on the indicator suggests that this example was made after mid-1915. If the accession file is correct, the rule was given to the Smithsonian by the U.S. Army Signal Corps in 1923. However, the presence of a serial number and the lettering of the A, B, C, and D scales suggest a somewhat later date. (K&E began to assign serial numbers in 1923, and a serial number of 46538 indicates a date around 1925.) Additionally, the accession file records that the slide rule had the Signal Corps type number ML–40. According to the 1920 Storage Catalogue for the Corps, an ML–40 slide rule was a ten-inch polyphase duplex slide rule, graduated on both sides with a frameless glass indicator, specifically "Keuffel & Esser Co.'s No. 4088-3, or equal." Thus, it is possible that this example is not the slide rule received with the 1923 accession. There are no known discrepancies in the files for MA.318480 and MA.321778, the K&E model 4088-3 slide rules acquired by the Smithsonian before 1965, though.
References: Wayne E. Feely, "K & E Slide Rules," The Chronicle of the Early American Industries Association 49, no. 5 (June 1996): 50–52, on 51; Ed Chamberlain, "Estimating K&E Slide Rule Dates," 27 December 2000, http://www.sphere.bc.ca/test/ke/320-k+e_date2.jpg; Signal Corps, Storage Catalogue (Washington, D.C.: Government Printing Office, 1920), 29, 575.
Location
Currently not on view
date made
ca 1925
maker
Keuffel & Esser Co.
ID Number
MA.308201
accession number
70852
catalog number
308201
This wooden instrument is faced on both sides with white celluloid that is attached with brass screws instead of glue.
Description
This wooden instrument is faced on both sides with white celluloid that is attached with brass screws instead of glue. On one side are 20-inch scales: cosine and sine scales on the upper part of the base, two identical logarithmic scales (in three cycles) labeled TIME SCALE on the slide, and a tangent scale on the lower part of the base. The slide is in two pieces, so the second Time Scale may be removed and adjusted relative to the first Time Scale with the aid of a brass thumbscrew.
Three glass indicators are in three-sided brass frames, two on the upper part of the base and one on the lower part of the base. The top of the base is marked: J. HICKS (/) LONDON. It is also marked: PILOT BALLOON SLIDE RULE MO (O is superimposed on M) 505. MO is an abbreviation for Meteorological Office, and 505 may be a serial number. An inventory sticker on the back reads: DEPARTMENT OF AGRICULTURE (/) US. The inventory number has been cut away. The instrument fits in a wooden case covered with black leather and lined on one side with purple satin.
In the 20th century, the Meteorological Office of Great Britain used pilot balloon slide rules to convert azimuth and elevation readings (taken with theodolites during the ascent of a pilot balloon) into data on wind velocity and direction. James Joseph Hicks (1825–1916), who began supplying instruments to the Office in 1869, made the first pilot balloon slide rule in 1915 from a design by Francis John Welsh Whipple, the Superintendent of Instruments.
After Hicks died, W. F. Stanley & Co. took over manufacture of this rule, called the Mark I, but retained the Hicks name. Additional labels were placed on the scales, such as "Azimuth." By 1927, A. G. Thornton Ltd. and other firms were making the Mark II, which had one slide and four indicators. Production of the Mark I may have continued until 1938.
The U.S. Weather Bureau was a part of the U.S. Department of Agriculture until 1940, when it was transferred to the U.S. Department of Commerce. This instrument apparently was not adopted by American meteorologists, since the Bureau used the Keuffel & Esser polyphase duplex slide rule to convert observations. For examples of that type of slide rule, see MA.318476, MA.321778, and 1981.0933.03. For an American theodolite used to observe pilot balloons, see PH.308184.
References: Martin Brenner, "Pilot Balloon Slide Rules," http://www.csulb.edu/~mbrenner/slide.htm; Malcolm Walker, History of the Meteorological Office (Cambridge: Cambridge University Press, 2012), 220; W. R. Gregg et al., Instructions for Aerological Observers, U.S. Department of Agriculture, Weather Bureau (Washington, D.C.: Government Printing Office, 1921), 78; Deborah J. Warner, "Altitude and Azimuth Instrument," National Museum of American History Physical Sciences Collection: Surveying and Geodesy , http://americanhistory.si.edu/collections/surveying/object.cfm?recordnumber=747475.
Location
Currently not on view
date made
1915-1927
inventor
Hicks, J. J.
maker
Stanley, William Ford
ID Number
MA.315905
catalog number
315905
accession number
222974
This yew rule has straight brass ends and two slides, which fit between the three parts of the base.
Description
This yew rule has straight brass ends and two slides, which fit between the three parts of the base. On one side, the top scale on the base (labeled A), the two scales on the upper slide (labeled E), the first scale in the middle of the base (labeled D), and the two scales on the second scale (labeled B and C) are identical logarithmic scales that run from 1 to 10 twice in the length of the rule. The second scale in the middle runs from 1 to 100 and is labeled SEGT ST (segments standing). The lowest scale on the base is labeled SEGT LY (segments lying).
These scales are used with the slides to find the volume of the liquid in a cask that is not full, either when it is standing on its base or lying horizontally. The ImB and ImG points, for just over 2200 cubic inches in an imperial bushel and 277.42 cubic inches in an imperial gallon, are marked on the A scale. On the D scale, point 18.95 is marked IG for the diameter of a cylinder containing one imperial gallon; point 46.3 is marked MS, for the side of a square vessel that contains one solid bushel per inch of depth; and point 52.32 is marked MR, for the side of a square vessel that contains one malt bushel per inch of depth.
The reverse side of the rule has a scale on the base labeled A that runs logarithmically from 1 to 10. Both slides have identical scales (the one on the upper slide is labeled C) that run from over 80 (UNDER PROOF) down to 0 (PROOF) and then up to 70 (OVER PROOF). The middle of the base has a scale labeled B that runs logarithmically from 4 to 40 and a scale labeled C that runs logarithmically from 300 to 30. The bottom of the base has a scale, also labeled C, that runs logarithmically from 100 to 10. There is no indicator.
One edge of the instrument has a scale labeled SPHD and a scale labeled 2ND VARIETY. These scales are for determining the diameters of two different shapes of barrels. The other edge is marked: L. LUMLEY & CO LTD 1 AMERICA SQUARE LONDON. L. Lumley & Company, a distributor of packing cases and related materials for bottling, was in business in London from at least 1884 though 1929.
For slide rules with similar two-slide designs but different purposes, see MA.318478 and 1987.0693.01. For earlier gauger's rules, see MA.319510 and 1980.0588.04.
Reference: Ronald E. Manley, "Gauging," http://www.sliderules.info/a-to-z/gauging.htm.
Location
Currently not on view
date made
1884-1929
maker
L. Lumley & Company Limited
ID Number
MA.320637
catalog number
320637
accession number
242721
This 22-inch, two-sided wooden slide rule has scales that are printed on paper but not engine-divided. On the front of the base, logarithmic scales are labeled B and C on the left and D and D on the right.
Description
This 22-inch, two-sided wooden slide rule has scales that are printed on paper but not engine-divided. On the front of the base, logarithmic scales are labeled B and C on the left and D and D on the right. The C scale is the inverse of the B scale and is also labeled RECIPROCALS. The first D scale runs from 1 to 3.16, and the second D scale runs from 3.16 to 10. These scales are labeled ROOTS.
Four identical scales are on the slide, all logarithmically divided from 1 to 10 and labeled A. Two of the scales are at the left end of the slide, and two are at the right end of the slide. These scales are also identical to the B scale. Written in pencil on the back of the slide and underneath the slide is the number 1103. The bottom of the base is marked: Patented July 2, 1901.
The back of the base has scales divided logarithmically from 1 to 10 and from 3.16 to 10 to 3.16. These scales are both labeled F at both ends. The slide also has scales divided logarithmically from 1 to 10 and from 3.16 to 10 to 3.16. These scales are both labeled E at both ends. Faded red numbers from 1 to 4 also appear on all four scales. Written in pencil on the back of the slide and underneath the slide is: 1102. The bottom of the base is marked: Patented July 2, 1901.
The top edge of the rule is marked: THE ENGINEERS (/) SLIDE RULE. It is also marked: From E. M. Scofield, Bridge Engineer. (/) Sta. A, – Youngstown, – Ohio. (/) Rule sent prepaid on receipt of price. (/) Factory, – Youngstown, Ohio. The paper pasted on this edge also has the formula ex/f, a description of how to solve this formula with the instrument, and tables of equivalents. The bottom edge of the rule gives seventeen more formulas and instructions. It is marked: DIRECTIONS FOR SCALES A • B • C & D (/) FOR "Op." READ "OPPOSITE" (/) FOR "—" READ "ON SCALE" (/) FOR "Ans." READ "FIND ANSWER" (/) FOR LAST SIX PROBLEMS REVERSE SLIDE.
Edson Mason Scofield (1867–1939) developed this rule in 1891 while he worked for Edwin Thacher (inventor of the cylindrical slide rule bearing his name; see, for example, MA.312866). Thacher applied for a patent on the design in 1900 and assigned a half-interest to Scofield when the patent was issued in 1901. According to the instrument, Scofield may have distributed the rule himself.
It was also sold by Eugene Dietzgen Company of Chicago from about 1901 through at least 1931. The price for model 1787 ranged from $5.00 to $7.00. By 1926 Dietzgen marked the rule with its company name. Meanwhile, Scofield went on to become president and chief engineer of the National Bridge Company of Pittsburgh in 1901. From 1903 he and his brother, Glenn M. Scofield, operated the Scofield Engineering Company in Philadelphia, New York City, and Los Angeles. This example belonged to Robert A. Cummings, a civil engineer who was the father of the donor. Compare to MA.333710.
References: Edwin Thacher, "Slide Rule" (U.S. Patent 677,817 issued July 2, 1901); Catalogue & Price List of Eugene Dietzgen Co., 7th ed. (Chicago, 1904), 173; Catalog of Eugene Dietzgen Co., 12th ed. (Chicago, 1926), 177; Conrad Schure, "The Scofield-Thacher Slide Rule," Journal of the Oughtred Society 3, no. 1 (1994): 20–25; Peter M. Hopp, Slide Rules: Their History, Models, and Makers (Mendham, N.J.: Astragal Press, 1999), 161.
Location
Currently not on view
date made
1901-1926
maker
Scofield, E. M.
ID Number
MA.325990
catalog number
325990
accession number
258733
This instrument consists of a wooden base to which a flat rectangular scale printed on white celluloid is attached. The scale is divided logarithmically and arranged in 20 parallel lines. Each line is about five inches long.
Description
This instrument consists of a wooden base to which a flat rectangular scale printed on white celluloid is attached. The scale is divided logarithmically and arranged in 20 parallel lines. Each line is about five inches long. A wooden frame slides backward and forward over the base. Within this frame is a second frame, which has a clear celluloid window. Four index marks are drawn on the window. A loose metal wedge with a pin attached serves as a pointer, and it may be placed at any point on the window. The scales are marked: THE COOPER 100 INCH SLIDE RULE (/) PATENTED.
The feet of the base are lined with green felt. The instrument fits in a leather-covered cardboard box that is lined with white felt. A sticker inside the lid reads: WILLIAM DUBILIER (/) 72 Esplanade (/) NEW ROCHELLE, N. Y. There is also a note that reads: TELEPHONE, PARK 1081. (/) WIRELESS CALL, 5AU. (/) 94, ADDISON ROAD (/) KENSINGTON, W. 14. (/) 24/12/22 (/) To W. D. (/) With very best wishes for (/) Xmas and the New Year. (/) W.v.P.
William Dubilier (1888–1969), the donor of this instrument, was an American electrical engineer and inventor who received this instrument from a friend in Great Britain in 1922. By 1923, W. F. Stanley & Co. made this rule and stamped the outer frame with its mark. Although the rule worked well for multiplication and percentage problems, it was difficult to set the rule accurately for more complex calculations. At the relatively high price of £4, the instrument probably never sold widely. No patents for the device have been found. For the instruction manual, see MA.259739.01.
References: Werner H. Rudowski, "The Cooper 100-inch Slide Rule: An Update," Slide Rule Gazette 8 (Autumn 2007): 25–27; Peter M. Hopp, Slide Rules: Their History, Models, and Makers (Mendham, N.J.: Astragal Press, 1999), 116; "William Dubilier, Inventor, Is Dead," New York Times (July 27, 1969), 65; accession file.
Location
Currently not on view
date made
1922
maker
Stanley, William Ford
ID Number
MA.326237
catalog number
326237
accession number
259739
The brass core of this cylindrical slide rule is covered with paper marked with forty A scales. The core fits in an open rotating frame that holds twenty metal slats; each slat is lined with cloth, covered with paper, and marked with two B and two C scales.
Description
The brass core of this cylindrical slide rule is covered with paper marked with forty A scales. The core fits in an open rotating frame that holds twenty metal slats; each slat is lined with cloth, covered with paper, and marked with two B and two C scales. Wooden knobs on each end of the core rotate the instrument. The frame is attached to a mahogany base.
The first A scale runs from 100 to 112; the fortieth runs from 946 to 100 to 105. The first B scale runs from 100 to 112, the last from 946 to 100 to 105. The first C scale runs from 100 to 334, the last from 308 to 305. The paper covering the core is also printed in italics on the right side: Made by Keuffel & Esser Co., New York; Patented by Edwin Thatcher [sic], C.E. Nov. 1st., 1881.
A paper of instructions and rules for operating THACHER'S CALCULATING INSTRUMENT is glued to the top front of the base. The top back of the base is stamped: KEUFFEL & ESSER CO. (encircling N.Y.); 4012 (/) 4917; TRADEMARK (below the K&E logo of a lion).
The instrument is stored in a mahogany rectangular case. A square off-white label inside the lid is printed: KEUFFEL & ESSER CO. (/) NEW YORK HOBOKEN, N.J. (/) CHICAGO ST. LOUIS SAN FRANCISCO MONTREAL (/) DRAWING MATERIALS, SURVEYING INSTRUMENTS (/) MEASURING TAPES (/) No. 4012 (/) SERIAL 4917.
Keuffel & Esser sold versions of the Thacher cylindrical slide rule from about 1883 until about 1950. There were two models, one with a magnifying glass (K&E model 1741 before 1900, K&E model 4013 after) and one without (K&E model 1740 before 1900, K&E model 4012 after). This is a model 4012; the serial number suggests it was manufactured around 1920. Model 4012 sold for $35.00 in 1916, $60.00 in 1922, and $70.00 in 1927.
The National Bureau of Standards (now the National Institute of Standards and Technology) declared this object excess property and transferred it to the Smithsonian in 1965. In 1968, the Department of Commerce borrowed the slide rule to exhibit in the U.S. Pavilion at HemisFair, an international exposition held in San Antonio, Tex. According to the accession file, a staffer replaced four missing screws on the base before returning the rule.
See also MA.312866; MA.323504; and MA.322730.
References: Wayne E. Feely, "Thacher Cylindrical Slide Rules," The Chronicle of the Early American Industries Association 50 (1997): 125–127; Keuffel & Esser Co., Slide Rules and Calculating Instruments (New York, 1916), 22; Keuffel & Esser Co., Slide Rules and Calculating Instruments (New York, 1922), 21; Keuffel & Esser Co., Slide Rules and Calculating Instruments (New York, 1927), 20.
Location
Currently not on view
date made
ca 1920
maker
Keuffel & Esser Co.
ID Number
MA.326628
accession number
261654
maker number
4917
catalog number
326628
This instrument consists of a wooden cylinder covered with paper scales, wooden handles at the ends of the cylinder, and a metal sleeve lined with felt. The sleeve, which is painted maroon, holds the cylinder.
Description
This instrument consists of a wooden cylinder covered with paper scales, wooden handles at the ends of the cylinder, and a metal sleeve lined with felt. The sleeve, which is painted maroon, holds the cylinder. Running the length of the sleeve are a slot 1.5 cm wide and a paper scale.
The instrument is marked on the paper covering the cylinder: “WEBB’S STADIA SLIDE RULE”, (/) DESIGNED BY WALTER LORING WEBB, C. E. (/) MANUFACTURED BY KEUFFEL & ESSER CO., N.Y. It also is marked there: DIRECTIONS. SLIDE THE CYLINDER UNTIL ONE END OF THE CYLINDER IS SET AT THE DISTANCE MARK ON THE SCALE AND SO THAT THE GIVEN ANGLE OF ELEVATION ALSO COMES TO SOME PART OF THE SCALE. THE REQUIRED QUANTITY IS 1/10 (1/100 or 1/1000, AS SHOWN BY THE MARK ON CYLINDER) OF THE SCALE READING AT THAT ANGLE MARK.
The stadia slide rule was used in topographical surveying to determine the elevation and geographical position of points and objects. Initially, a chain and compass or transit had been used to determine geographical position, with a level employed to obtain relative elevations. Greater efficiency in these measurements was then found by using a plane-table.
In about 1864, the U.S. Lake Survey adopted a third system, first used in Italy about 1820. A stadia rod was placed at the point of interest and sighted through the telescope of a transit. The distance to this point was found by observing the portion of the graduated rod shown between certain cross-hairs of the telescope. To find the elevation of the point, one examined the vertical angle on the vertical circle of the transit when the telescope was aimed at a point on the stadia rod that was the same height off the ground as the telescope. A stadia slide rule was then used for data reduction.
Keuffel & Esser of New York introduced a 20-inch linear stadia slide rule in 1895. It sold under various model numbers (1749, 4101, N-4101) until 1952. In 1897, the firm introduced a 50-inch linear stadia slide rule designed by Branch H. Colby of St. Louis. Colby's stadia slide rule (model number 1749-3, later 4125) sold until 1903. Textbook authors such as John Butler Johnson endorsed the rule, but it was awkward to carry in the field.
Walter Loring Webb (1863–1941), a civil engineer who graduated from Cornell University and taught there and at the University of Pennsylvania, proposed a rule that had parallel scales arranged on a cylinder, reducing the length of the instrument to about 16 inches. K&E sold Webb's stadia slide rule for $5.00 from 1903 to 1923.
One end of the sleeve is painted: 1803. This may be an inventory number from the University of Missouri's Department of Civil Engineering, which donated the instrument in 1972. The university began teaching civil engineering in 1859, and its School of Engineering was renamed the College of Engineering in 1877.
See also 1983.0472.01. For circular stadia slide rules, see MA.336425, 1987.0221.01, and 2002.0282.01.
References: John Butler Johnson, The Theory and Practice of Surveying, 16th ed. (New York: John Wiley & Sons, 1908), 237ff; Walter Loring Webb, Railroad Construction: Theory and Practice, 7th ed. (New York: John Wiley & Sons, 1922), 22–23; Wayne E. Feely, "K & E Slide Rules," The Chronicle of the Early American Industries Association 49, no. 5 (1996): 50–52; Catalogue and Price List of Keuffel & Esser Co., 31st ed. (New York, 1903), 308; Mark C. Meade, "A History of the College of Engineering at the University of Missouri – Columbia," Archives of the University of Missouri, http://muarchives.missouri.edu/c-rg9-eng.html.
Location
Currently not on view
date made
1903-1923
maker
Keuffel & Esser Co.
ID Number
MA.333636
accession number
300659
catalog number
333636
The scales on this 22-inch, two-sided wooden slide rule are printed on paper. The front has two scales on the left end of the base labeled B and C and two scales labeled A on the left end of the slide. These scales run half the length of the instrument.
Description
The scales on this 22-inch, two-sided wooden slide rule are printed on paper. The front has two scales on the left end of the base labeled B and C and two scales labeled A on the left end of the slide. These scales run half the length of the instrument. The B and two A scales are identical, divided logarithmically from left to right and running from 1 to 10. The C scale is divided logarithmically from right to left and runs from 10 to 1. It is labeled RECIPROCALS.
The right end of the base has two D scales, both labeled ROOTS, with two additional A scales on the right end of the slide. The A scales are divided logarithmically from left to right and run from 1 to 10. The top D scale runs from 1 to 3.16 and shows square roots of the numbers on the A scale below it. The bottom D scale runs from 3.16 to 10 and shows square roots of the numbers on the A scale above it, between 10 and 100. Written in pencil on the back of the slide and underneath the slide is the number 1096.
The back of the rule contains two scales on the base labeled F and two scales on the slide labeled E. The top F scale runs the length of the scale and is divided logarithmically from 1 to 10. The sections between 1 and 2, between 2 and 3, between 3 and 4, and between 4 and 5 are subdivided. The lower F scale is similarly divided, but starts from the center of the rule (running from the square root of 10, or 3.16, to 10 and then from 1 to the square root of 10). The E scales are identical to the adjacent F scales. Written in pencil on the back of the slide and underneath the slide is the number 1097.
The bottom of the base on both sides is marked: Patented July 2, 1901. The top edge of the rule is marked: THE ENGINEERS (/) SLIDE RULE. It is also marked: From E. M. Scofield, Bridge Engineer. (/) Sta. A, – Youngstown, – Ohio. (/) Rule sent prepaid on receipt of price. (/) Factory, – Youngstown, Ohio. The paper pasted on this edge also has the formula ex/f, a description of how to solve this formula with the instrument, and tables of equivalents. The bottom edge of the rule gives seventeen more formulas and instructions. It is marked: DIRECTIONS FOR SCALES A • B • C & D (/) FOR "Op." READ "OPPOSITE" (/) FOR "—" READ "ON SCALE" (/) FOR "Ans." READ "FIND ANSWER" (/) FOR LAST SIX PROBLEMS REVERSE SLIDE.
Edson Mason Scofield (1867–1939) developed this rule in 1891, while he worked for Edwin Thacher (inventor of the cylindrical slide rule bearing his name; see, for example, MA.312866). Thacher applied for a patent on the design in 1900 and assigned a half-interest to Scofield when the patent was issued in 1901. According to the instrument, Scofield may have distributed the rule himself. It was also sold by Eugene Dietzgen Company of Chicago from about 1901 through at least 1931. The price for model 1787 ranged from $5.00 to $7.00. By 1926, Dietzgen marked the rule with its company name. This instrument is identical to MA.325990.
John N. Welsh (1904–1999), the donor of this slide rule, was a chemical engineer who obtained his B.S. from the Carnegie Institute of Technology in 1925. He was associated with Hall Laboratories, Inc. of Pittsburgh (later CALGON) from 1939 through at least 1968. By 1972, when this slide rule was briefly placed on exhibit, Welsh was living in Florida.
References: Edwin Thacher, "Slide Rule" (U.S. Patent 677,817 issued July 2, 1901); Catalogue & Price List of Eugene Dietzgen Co., 7th ed. (Chicago, 1904), 173; Catalog of Eugene Dietzgen Co., 12th ed. (Chicago, 1926), 177; Conrad Schure, "The Scofield-Thacher Slide Rule," Journal of the Oughtred Society 3, no. 1 (1994): 20–25; Peter M. Hopp, Slide Rules: Their History, Models, and Makers (Mendham, N.J.: Astragal Press, 1999), 161; Who's Who in Engineering (New York and West Palm Beach: Lewis Historical Publishing Co., 1964), 1996.
Location
Currently not on view
date made
1901-1926
maker
Scofield, E. M.
ID Number
MA.333710
catalog number
333710
accession number
300658
In the late 19th and early 20th centuries, several circular slide rules were made to resemble pocket watches. Fowler & Co., of Manchester, England, was a particularly notable manufacturer of this type of slide rule.
Description
In the late 19th and early 20th centuries, several circular slide rules were made to resemble pocket watches. Fowler & Co., of Manchester, England, was a particularly notable manufacturer of this type of slide rule. The company was in business from 1898 to 1988 and made a large variety of calculators, although the labor-intensive nature of its manufacturing process produced expensive instruments that never sold in large numbers.
This example is the "long scale" model, consisting of a metal case with a ring, two knobs, and two rotating paper discs covered with glass. The front has a short logarithmic scale and a long logarithmic scale, laid out in six concentric circles rather than in a spiral. These scales are rotated by the knob on the left. The glass is marked with two hairlines. The interior of the disc reads: FOWLER'S (/) LONG SCALE CALCULATOR (/) PATENT (/) FOWLER & Co MANCHESTER.
The other knob rotates the seven scales on the back of the instrument: multiplication and division, reciprocals, logarithms, square roots, logarithmic sines, logarithmic tangents, and a second scale for logarithmic sines. The interior is marked: FOWLER'S (/) CALCULATOR (/) PATENT (/) FOWLER & Co MANCHESTER. There is one hairline indicator on the glass. The slide rule is with a tarnished square metal case, lined with purple velvet. The outside of the case is engraved: Fowler's (/) CALCULATOR. The inside is stamped: Fowler & Co. (/) CALCULATOR (/) SPECIALISTS (/) Manchester (/) ENGLAND.
William Henry Fowler (1853–1932) and his son, Harold Fowler, took out several British patents for improvements to circular calculators between 1910 and 1924. The first Fowler calculator with two knobs on the rim was patented in 1914. In 1927, Fowler & Co. introduced the Magnum Long Scale Calculator, which extended the scale length to 50 inches. Thus, this example is dated between 1914 and 1927.
Charles Looney (1906–1987), the donor of this slide rule, catalogued engineering drawings and trade literature at the Smithsonian after he retired from the University of Maryland–College Park, where he served as chair of the Department of Civil Engineering. He also donated his library of books and pamphlets to the Museum.
References: Peter M. Hopp, "Pocket-Watch Slide Rules," Journal of the Oughtred Society 8, no. 2 (1999): 45–51; Richard Blankenhorn and Robert De Cesaris, "The Fowler Calculators: A Catalogue Raisonné," Journal of the Oughtred Society 11, no. 2 (2002): 3–11; Museum of History and Science in Manchester, "Fowler & Co.," http://www.mosi.org.uk/media/33870536/fowlerandco.pdf; accession file.
Location
Currently not on view
date made
1914-1927
maker
Fowler & Co.
ID Number
MA.333849
catalog number
333849
accession number
303780
This large cylindrical slide rule consists of an aluminum frame supporting a horizontal rotating aluminum drum. Paper covering the drum is marked with 60 logarithmic C and D scales that are 20.5" long and run from 1,000 to 10,000.
Description
This large cylindrical slide rule consists of an aluminum frame supporting a horizontal rotating aluminum drum. Paper covering the drum is marked with 60 logarithmic C and D scales that are 20.5" long and run from 1,000 to 10,000. Each scale repeats part of the previous scale, so the instrument is approximately equivalent to a linear slide rule 50 feet (or 15m) long. A slotted cylindrical sleeve that is 13" long fits over the drum. It slides back and forth. The right end of the sleeve is secured in an aluminum ring. The ring and sleeve can rotate independently of each other.
The sleeve's 60 slats are marked with logarithmic scales that run from 100 to 1,000. Four small clear celluloid triangles attached to the slats serve as indicators. Black bands on either side of the drum and on the left side of the sleeve are marked with numbers from 1,000 to 9,623. The bands on the sleeve were originally covered with clear celluloid.
The side pieces of the frame are both marked: LOGA. The ends of the drum are both marked: LOGA-CALCULATOR • ZURICH. The band on the right side of the sleeve is marked: Loga - Calculator 15m Patente Daemen Schmid, Uster - Zürich.
The Swiss firm of Heinrich Daemen-Schmid manufactured approximately 30,000 cylindrical Loga-Calculators between 1900 and 1935. Daemen-Schmid patented the device in the United States in 1912. The donor, Jacques Kayalaff (1898–1983), was an international banker who used this instrument for calculations relating to currency exchange. He purchased it around 1925 for $500.
References: Accession File; Dieter von Jezierski, Slide Rules: A Journey Through Three Centuries, trans. Rodger Shepherd (Mendham, N.J.: Astragal Press, 2000), 42, 44; Heinrich Daemen-Schmid, "Computing Device" (U.S. Patent 1,036,575 issued August 27, 1912); Heinz Joss, "350 Jahre Rechenschieber, und was die Region Zürich dazu beigetragen hat (350 Years of Slide Rules, and What the Zurich Region Has Contributed)," Vierteljahreszeitschrift der Naturforschenden Gesellschaft in Zürich 146, no. 2–3 (2001): 75–82, http://www.rechenschieber.org/zurich.html.
Location
Currently not on view
date made
ca 1925
maker
Daemen-Schmid
ID Number
MA.335255
catalog number
335255
accession number
316433

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