| Education - 1901 - 548 pages
...segments of the one shall be equal to the rectangle contained by the segments of the other. (6) Construct an isosceles triangle having each of the angles at the base double of the third angle. B. (7) ABC is a right-angled isosceles triangle having the angle at À a right... | |
| Charles Godfrey, Arthur Warry Siddons - Geometry - 1903 - 384 pages
...a triangle with angles 50°, 40°. Measure the sides. Ex. 1399. Inscribe in a circle of radius 4cm. an isosceles triangle having each of the angles at the base double the angle at the vertex. Measure the base. Ex. 14OO. Inscribe in a circle of radius 2-5 in. a triangle... | |
| Euclid - Euclid's Elements - 1904 - 488 pages
...13. Inscribe (i) a circle, (ii) a square in a given quadrant. PROPOSITION 10. PROBLEM. To describe an isosceles triangle having each of the angles at the base double of the third angle. Construction. Take any straight line AB. Divide AB at C, so that the rect. BA,... | |
| Ontario. Legislative Assembly - Ontario - 1905 - 1096 pages
...medial section. To describe a square that shall be equal to a given rectilinear figure. To describe an isosceles triangle having- each of the angles at the base double of the third angle. To inscribe a regular pentagon in a given circle. The squares on two sides of a... | |
| Queen's University (Kingston, Ont.) - 1906 - 314 pages
...medial section. To describe a square that shall be equal to a given rectilineal figure. To describe an isosceles triangle having each of the angles at the base double of the third angle. To inscribe a regular pentagon in a given circle. The squares on two sides of a... | |
| Saskatchewan. Department of Education - Education - 1906 - 188 pages
...extended to n chords and intersecting on the circumference or outside the circle. 7. (a) To describe an isosceles triangle having each of the angles at the base double of the third angle. IV. 10. (6) In your figure to IV. 10, show that the side of a decagon inscribed,... | |
| Elmer Adelbert Lyman - Geometry - 1908 - 364 pages
...circumferences. 52. Find the area of a segment whose chord is equal to the radius of the circle. 53. Construct an isosceles triangle having each of the angles at the base double the angle at the vertex. 54. Show how to construct a tile floor with octagons and squares. 55. Find the... | |
| Euclid - Mathematics, Greek - 1908 - 550 pages
...— lit, 14. 5. 8. HE Thus there is neither setting-out nor definition in the problem of constructing an isosceles triangle having each of the angles at the base double of the remaining angle, and in most theorems there is no construction because the setting-out suffices... | |
| Henry Sinclair Hall - 1908 - 286 pages
...contained by the whole and one part may be equal to the square on the other part. 240 PROBLEM 34. To draw an isosceles triangle having each of the angles at the base double of the vertical angle. 242 THE GRAPHICAL SOLUTION OF QUADRATIC EQUATIONS Appendix. On the Form of Some... | |
| Royal Military Academy, Woolwich - Mathematics - 1909 - 456 pages
...of AD and BC respectively, meet in one point which bisects each of the joining lines. 4. Construct an isosceles triangle having each of the angles at the base double the vertical angle. A is the vertex and BD the base of the isoceles triangle ; C is the point on AB used in the construction;... | |
| |