The arc of a great circle drawn from the vertex of an isosceles spherical triangle to the middle of the base is perpendicular to the base, and bisects the vertical angle. Solid Geometry - Page 449by Fletcher Durell - 1904 - 206 pagesFull view - About this book
| Elias Loomis - Conic sections - 1857 - 242 pages
...included side of the one, equal to two angles and the included side of the other PROPOSITION XVI. THEOREM. In an isosceles spherical triangle, the angles opposite the equal sides are equal; and, conversely, if two angles of a spherical triangle are equal, the triangle is isosceles. Let ABC... | |
| Elias Loomis - Conic sections - 1858 - 256 pages
...included side of the one, equal to two angles and the included side of the other PROPOSITION XVI. THEOREM. In an isosceles spherical triangle, the angles opposite the equal sides are equal; and, conversely, if two angles of a spherical triangle are equal, the triangle is isosceles. Let ABC... | |
| Horatio Nelson Robinson - Geometry - 1860 - 470 pages
...angles of the one will be equal to the sides and angles of the other, each to each. PROPOSITION X. In an isosceles spherical triangle, the angles opposite the equal sides are equal. Let ABC be an isosceles spherical triangle, in which AB and AC are the equal sides ; then will |_ B... | |
| Horatio Nelson Robinson - 1869 - 276 pages
...angles of the one will be equal to the sides and angles of the other, each to each. PROPOSITION X. In an isosceles spherical triangle, the angles opposite the equal sides are equal. Let ABC be an isosceles spherical triangle, in which AB and AC are the equal sides; then will [_B =[_C.... | |
| Elias Loomis - Geometry - 1871 - 302 pages
...included side of the one equal ID two angles and the included side of the other PROPOSITION XVI. THEOREM. In an isosceles spherical triangle, the angles opposite the equal sides are equal; and, conversely, if two angles of a spherical triangle are equal, the triangle is isosceles. Let ABC... | |
| William Chauvenet - Geometry - 1871 - 380 pages
...triangles will then be similar, as in the case of plane triangles. PROPOSITION XXIII.— THEOREM. 78. In an isosceles spherical triangle, the angles opposite the equal sides are equal. In the spherical triangle ABC, let AB = AC; A then, B = C. For, draw the arc AD of a great circle,... | |
| William Chauvenet - Mathematics - 1872 - 382 pages
...triangles will then be similar, as in the case of plane triangles. PROPOSITION XXIII.— THEOREM. 78. In an isosceles spherical triangle, the angles opposite the equal sides are equal. In the spherical triangle ABC, let AB = AC; A then, B = C. For, draw the arc AD of a great circle,... | |
| William Frothingham Bradbury - Geometry - 1877 - 262 pages
...equilateral, or mutually equiangular, can always be made to coincide, and are therefore equal. THEOREM XI. 29. In an isosceles spherical triangle the angles opposite the equal sides are equal. In the isosceles spherical triangle ABC let AC and AB be the equal sides ; then the angle B is equal... | |
| Edward Olney - Geometry - 1879 - 502 pages
...trirectangular triangle, is equilateral and Us sidet are quadrants. PROPOSITION XT. 579. Theorem. — In an isosceles spherical triangle the angles opposite the equal sides are equal ; and, conversely, If ttoo angles of a spherical triangle are equal, the triangle is isosceles. DEM.... | |
| William Frothingham Bradbury - Geometry - 1880 - 260 pages
...equilateral, or mutually equiangular, can always be made to coincide, and are therefore equal. THEOREM XI. 29. In an isosceles spherical triangle the angles opposite the equal sides are equal. In the isosceles spherical triangle ABC let AC and AB be the equal sides; then the angle B is equal... | |
| |