F, be respectively poles of the sides BC, AC, AB. For, the point A being the pole of the arc EF, the distance AE is a 'quadrant ; the point C being the pole of the arc DE, the distance CE is likewise a quadrant : hence the point E is... Elements of Geometry and Trigonometry - Page 232by Adrien Marie Legendre - 1852 - 432 pagesFull view - About this book
| Adrien Marie Legendre - Geometry - 1874 - 500 pages
...as poles, let the arcs EF, FD, ED, be described, forming the taiangle DFE: then will the vertices D, E, and F, be respectively poles of the sides BC, AC,...quadrant ; the point C being the pole of the arc DE, tho distance CE, is likewise a quadrant : hence, the point E is at a quadrant's distance from the points... | |
| Charles Davies - 1874 - 464 pages
...the vertices D, E, and F, be respectively poles of the sides BC, AC, AB. For, the point A being 242 the pole of the arc EF, the distance AE, is a quadrant ; the point C being the pole of the arc JDE, tho distance CE, is likewise a quadrant : hence, the point E is at a quadrant's distance from... | |
| Charles Scott Venable - 1881 - 380 pages
...DE lie described, forming the triangle DEF, then will the three points D, E, F be reciprocally the poles of the sides BC, AC, AB. For, the point A being...C being the pole of the arc DE, the distance CE is also a quadrant ; hence, the point E is at the distance of the length of a quadrant from each of the... | |
| Charles Davies, Adrien Marie Legendre - Geometry - 1885 - 538 pages
...forming the triangle DFE : then are the vertices D, E, and F, respectively poles of the sides BC, AC, AB. pole of the arc EF, the distance AE is a quadrant...is • likewise a quadrant : hence, the point E is at a quadrant's distance from the points A and C : hence, it is the pole of the arc AC (P. III., C.... | |
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