1924 RADIUM STAR MAP E.W. Sundell map

Description: 1924 STAR MAPdisplays stars and constellationsGlows at night very very RAREthere is one in the National Museum of American Historyby E W Sundell4 feet in length four one foot hinged panels DescriptionJan. 15 1924. 1,480,793 E. W. SUNDELL STAR MAP Filed 0G11. 20. 1921 Patented dan, l5, 1924. unirse *STATES 1 ERNEST W. SUNDELL, or OAK' "rAnKfrniLfivoisi STAR MAP. Application met 0cm-ber 2o,` 1921. seran No. 509,1'371. Be itfknown that I, ERNEST W. SUNDELL, a` citizen of the United States, have invented certain new and useful Improvements in Star Maps, of which the following is a specification, reference being had to the accompanying` drawings, formingy a part thereof. The purpose of this invention is to provide a star map in such form as to facilitate the study of the heavens at night by direct comparison of the map and the sky without the aid of a telescope and without the use of artificial light in referring to the map. It consists of certain features of construction as hereinafter described and shown in the drawings and as indicated by the claims. In the drawings Figure 1 is a diagrammatic perspective view representing the constellation of Auriga as viewed by the eye of the observer. Figure 2 is a similar diagrammatic perspectve View of the luminous representation of Auriga on a map embodying this invention and viewed by the eye of the observer at a normal reading distance from the map. Figure 3 is a face view of a fragment of the map. It may be understood that the complete star map of the heavens is made horizontally oblong to represent the entire series of constellations visible in all directions and it may also include a circular arrangement of the circumpolar stars; but for the purpose of illustrating this invention only a fragment of such a'map need be shown as in Figures 2 and 3. The essential feature of the invention consists in representing the various stars on the map by small circular areas, l, 2, 3, 4: and 5, which are rendered luminous. Preferably I secure this result by covering the map surface at these circular areas with luminous radiant material such as the radium composition frequently employed for clock dials to cause the dial markings to glow in the dark. I do not confine myself, however, to this specific means for securing luminosity of the areas representing the stars. rIhe reference numerals, 1, 2, 3, 4 and 5, are applied to the illustration of the map in Figure 3 to distinguish between the stars of the first, second, third, fourth'and fifth magnitudes respectively.` Onfthe map the stars of the first four magnitudes are further distinguished by different peripheral markings-whichmayor may -not be selfluminous. ,In anyy event,iI'-l make the circular areas, l, 2, 3, 4 and 5, diderent in size in approximate :proportion tothe difference of magnitude ofthe various stars which they represent, so that when viewed in the dark these respective markings will approximate the appearance of the stars in the sky, permitting a direct comparison between the map and the sky and greatly facilitating the identification of stars or constellations in the sky by reference to the map. To further assist in the identification of the star groups or constellations, I prefer to add luminous connecting outlines, 6, which glow in the dark as do the circular star areas. I find it most helpful to make the map on such a scale that when held in the hand of the observer at easy reading distance,-say from twelve to eighteen inches from the eye,-it shall display within the normal angle of vision a representation of the heavens corresponding substantially to the portion o-f the sky included in the normal vertical angle of vision. Figures 1 and 2 illustrate this feature; in Figure 1 the small circles grouped at A represent the stars in the sky composing the constellation Auriga and the eye of the observer is represented at E with a pencil of lines, X, converging from the various stars to the eye. Comparing this viewwith Figure 2 in which a fragment of the map is shown at M with luminous spots thereon representing the constellation Auriga, it will be seen that the pencil of lines, Y, proceeding from these spots to the eye, E, of the observer bear substantially the same angular relation to each other as the lines, X, in Figure 1. That is to say,-the representation of Auriga on the map subtends the same angle as the constellation itself. A map on this scale showing stars both north and south of the equator will be approximately ten inches in height and lwhen used outdoors on a clear dark night, it presents to the eye, by virtue of the luminosity of the markings, an image of the heavens substantially the same in size as that which is seen when the actual stars themselves are viewed. In other words, the image resulting from the map is a duplicate ofythatprodnced bytheJ-l sky itself, rendering thewlocationf-Astarsl and constellations exceedingly simple for,... the observer by direct eomparisonofthe map and the sky. I claim l. A star map on which the stars are represented by spots of radiant luminous material rendering them readily distinguishable the.` dark.. All items are shipped with handling included. Please ask questions if you need any additional information. A full refund if you feel this item does not meet your satisfaction.

Price: 5000 USD

Location: Pawtucket, Rhode Island

End Time: 2024-10-13T03:00:01.000Z

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