| Thomas Holliday - Surveying - 1838 - 404 pages
...eight, a nonagon of nine, a decagon of ten, an undecagon of eleven, and a duodecagon of twelve sides. 2. **The side of a regular hexagon inscribed in a circle is equal to the radius of** the circle. Lintf hoiv fei ou-t j DCFE 0 CB c B Beat, 2.5 Liru/ AT Basc. of Offsets *r Perpendiculars... | |
| Enoch Lewis - Conic sections - 1844 - 228 pages
...same arcs, are likewise the tangents of the angle at A. ART. 26. It appears from cor. to 15.4, that **the side of a regular hexagon, inscribed in a circle, is equal to the radius of** the circle. But the side of a regular hexagon, inscribed in a circle, subtends an arc of 60° ; hence... | |
| Nathan Scholfield - 1845 - 896 pages
...supposed to be drawn from b to d, bisects the vertical angle bed. PROPOSITION V. THEOREM. Tlte side o/ **a regular hexagon inscribed in a circle is equal to the radius of** (hat circle. Let ABCDEF be a regular hexagon inscribed in a circle, the centre of which is O, then... | |
| Bengal (India) - 1848 - 520 pages
...showing that the fraction ftrc is the measure of the angle subtended by the arc at the radius centre. 9. **The side of a regular hexagon inscribed in a circle, is equal to the radius.** Show also from having an inscribed regular polygon given, how to inscribe another in a circle, having... | |
| Euclides - 1861 - 464 pages
...Л the hexagon is eq. lat. and eq. angular, and it is inscribed in 0 AC Е. Q. в. F.' Coв. 1. — **The side of a regular hexagon inscribed in a circle is equal to the radius,** or semi-diameter, of the circle ; or, in other words, ike chord of 60° is equal to the radius. DI... | |
| Benjamin Greenleaf - Geometry - 1862 - 514 pages
...inscribed square is to the radius as the square root of 2 is to unity. PROPOSITION V. — THEOREM. 355. **The side of a regular hexagon inscribed in a circle is equal to the radius of** the circle. Let ABCDEF be a regular hexagon inscribed in a circle, the centre of which is O; then any... | |
| Benjamin Greenleaf - Geometry - 1862 - 520 pages
...inscribed square is to the radius as the square root of 2 is to unity. D PROPOSITION V. — THEOREM. 355. **The side of a regular hexagon inscribed in a circle is equal to the radius of** the circle. Let ABCDEF be a regular hexagon inscribed in a circle, the centre of which is 0 ; then... | |
| Benjamin Greenleaf - Geometry - 1863 - 504 pages
...inscribed square is to the radius as the square root of 2 is to unity. PROPOSITION V. — THEOREM. 355. **The side of a regular hexagon inscribed in a circle is equal to the radius of** the circle. Let ABC DEF be a regular hexagon inscribed in a circle, the center of which is 0 ; then... | |
| Olinthus Gregory - 1863 - 482 pages
...: A Bs=3 A D'. 44. A square inscribed in a circle, is equal to twice the square of the radius. 45. **The side of a regular hexagon inscribed in a circle, is equal to the radius of** the circle ; BE= B c. 46. If two chords in a circle mutually intersect at right angles, the sum of... | |
| Benjamin Greenleaf - Geometry - 1868 - 338 pages
...inscribed square is to the radius as the square root of 2 is to unity. PROPOSITION V. — THEOREM. 355. **The side of a regular hexagon inscribed in a circle is equal to the radius of** the circle. Let ABC DEF be a regular hexagon inscribed in a circle, the centre of which is 0 ; then... | |
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