PF' = 2 a. 97. Hence, an ellipse may also be defined as the locus of a point the sum of whose distances from two fixed points is constant. Coordinate Geometry - Sivu 75tekijä(t) Henry Burchard Fine, Henry Dallas Thompson - 1909 - 297 sivuaKoko teos - Tietoja tästä kirjasta
| Henry Parr Hamilton - 1834 - 272 sivua
...Distances of any Point are SP — a — ex .*) HP — a + ex ............................... 115 To find the Locus of a Point, the Sum of whose Distances from two fixed Points = 2a ................ 117 The Polar Equation (1) When the Focus is the Pole, is 1 + e cos w ' (2) When... | |
| Henry Parr Hamilton - 1834 - 240 sivua
...ELLIPSE REFERRED TO THE Focus. The Focal Distances of any Point are SP=a- ex HP = a + ex 115 To find the Locus of a Point, the Sum of whose Distances from two fixed Points = 2rt 117 The Polar Equation (1) When the Focus is the Pole, is 1 + e cos 10 ' (2) When the Centre... | |
| John Hymers - 1837 - 486 sivua
...method of investigating the equation to the ellipse which is sometimes employed as follows. 118. To find the locus of a point, the sum of whose distances from two given points is constant. Through the two fixed points S, H (fig. 40), draw the indefinite line Sx;... | |
| Cambridge univ, exam. papers - 1847 - 40 sivua
...extremities of any chord of a parabola intersect in the diameter which bisects the chord. fl. Find the locus of a point the sum of whose distances from two fixed points is constant. Shew how an ellipse whose semi-axes are 4 and 5 inches may be described mechanically. 14. Express the... | |
| Charles Taylor - 1863 - 262 sivua
...parallel to one of two fixed planes. APPENDIX. In the following articles an Ellipse is considered to be defined as the locus of a point, the sum of whose distances from two fixed points is constant; and a Hyperbola as the locus of a point the difference of whose distances from two fixed points is... | |
| Isaac Newton, Percival Frost - 1863 - 312 sivua
...segments of a circle, which contain equal angles, are similar. 2. From the definition of an ellipse, as the locus of a point the sum of whose distances from two fixed points is constant, •shew that the ellipses are similar when the eccentricities are the same. 3. Prove that the center... | |
| Sir Isaac Newton - 1863 - 316 sivua
...segments of a circle, which contain equal angles, are similar. 2. From the definition of an ellipse, as the locus of a point the sum of -whose distances from two fixed points is constant, 'shew that the ellipses are similar when the eccentricities are the same. 3. Prove that the center... | |
| John Hunter (of Uxbridge.) - 1866 - 44 sivua
...SP=HA+AP + SB-BP; but AP=BP; .'. HP + SP=HA + SB, the sum of the given radii, and therefore constant. And the locus of a point, the sum of whose distances from two given points is constant, is an ellipse. (See the 4th of the worked Examples.) 12. If a;', y' were... | |
| William Chauvenet - 1871 - 380 sivua
...segments (external or internal) whose product is equal to a given constant, fc*. (III. 56, 59.) 172. Find the locus of a point the sum of whose distances from two given straight lines is equal to a given constant It. 173. Find the locus of a point the difference... | |
| Edward Olney - 1872 - 102 sivua
...without the circumference, when it is in, and when it is within the circumference. 869. Prob.—Find the locus of a point the sum of whose distances from two fixed intersecting lines is constant, ie, is equal to a given line. '8 Fia. 449. SOLUTION.—Let AB and CE... | |
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