Plano que manifiesta del modo que csta formada la Ysla Santa Cathalina en la costa del Brasil situada su mediama en los 27 gos. y 72 ms. de latitud y en 327 gs. y 10 ms., merional de Tenerife.
Summary
Depths shown by soundings.
Oriented with north to the right.
Prime meridian: Tenerife.
Watermarks: Two decorative shields and indecipherable lettering.
Pen-and-ink and watercolor.
Mounted on cloth backing.
LC Luso-Hispanic World, 182
Maggs number annotated in pencil in lower right corner: 293.
Includes note and index.
Available also through the Library of Congress Web site as a raster image.
Vault
In the 17th century, maps took a huge leap forward. Mathematical and astronomical knowledge necessary to make accurate measurements had evolved. English mathematicians had perfected triangulation: navigation and surveying by right-angled triangles. Triangulation allowed navigators to set accurate courses and produced accurate land surveys. Seamen learned to correct their compasses for declination and had determined the existence of annual compass variation. Latitude determination was greatly improved with the John Davis quadrant. The measurement of distance sailed at sea was improved by another English invention, the common log. Longitudinal distance between Europe and Québec was determined by solar and lunar eclipses by the Jesuit Bressani in the 1640s and by Jean Deshayes in 1686. With accurate surveys in Europe, the grid of the modern map began to take shape.
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