| Francis Joseph Grund - Geometry, Plane - 1830 - 274 pages
...cutting the circle, the tangent GEOMETRY. 177 is a mean proportional between that whole line, and the part of it which is without the circle. 26. If a chord...27. If from a point without a circle, two straight sides are drawn, cutting the circle, these lines are to each other in the inverse ratio of their parts... | |
| Euclides - 1845 - 546 pages
...cutting the circle and making equal angles with the longest line, they will cut off equal segments. 38. From a point without a circle two straight lines are drawn cutting the convex and concave circumferences, and also respectively parallel to two radii of the circle. Prove... | |
| Robert Potts - Geometry, Plane - 1860 - 380 pages
...by any two chords that intersect, is the same, as long as the angle of intersection is the same. 19. From a point without a circle two straight lines are drawn cutting the convex and concave circumferences, and also respectively parallel to two radii of the circle. P.ove... | |
| Euclides - 1864 - 448 pages
...by any two chords that intersect, is the same, as long as the angle of intersection is the same. 19. From a point without a circle two straight lines are drawn cutting the convex and concave circumferences, and also respectively parallel to two radii of the circle. Prove... | |
| Euclides - 1864 - 262 pages
...by any two chords that intersect, is the same, as long as the angle of intersection is the same. 19. From a point without a circle two straight lines are drawn cutting the convex and concave circumferences, and also respectively parallel to two radii of the circle. Prove... | |
| Robert Potts - 1868 - 434 pages
...by any two chords that intersect, is the same, as long as the angle of intersection is the same. 19. From a point without a circle two straight lines are drawn cutting the convex and concave circumferences, and also respectively parallel to two radii of the circle. Prove... | |
| Francis Cuthbertson - Euclid's Elements - 1874 - 400 pages
...circumference equal to one another, the centre lies in the straight line bisecting the angle between them. 8. If from a point without a circle two straight lines are drawn to the circumference equal to one another, the centre lies in the straight line bisecting the angle... | |
| Robert Potts - Geometry - 1876 - 446 pages
...by any two chords that intersect, is the same, as long as the angle of intersection is the same. 19. From a point without a circle two straight lines are drawn cutting the convex and concave circumferences, and also respectively parallel to two radii of the circle. Prove... | |
| Oxford univ, local exams - 1880 - 396 pages
...the side BC in the points D and E. Shew that AB touches the circle described on DE as diameter. 11. If from a point without a circle two straight lines are drawn, one of which cuts the circle and the other meets it ; then if the rectangle contained by the whole... | |
| Dalhousie University - 1893 - 152 pages
...others that which makes a greater angle with the least line is greater than that which makes a less. 6. If from a point without a circle, two straight lines are drawn, one of which touches the circle and the other cuts it ; the difference of the squares of the line to... | |
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