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- ...gth of the equilateral is <math>3\sqrt{3}</math>. We now use 3D coordinate geometry. [[Category:Intermediate Geometry Problems]]6 KB (980 words) - 20:45, 31 March 2020
- [[Category:Introductory Geometry Problems]] [[Category:3D Geometry Problems]]2 KB (364 words) - 03:54, 16 January 2023
- '''3D Geometry''' deals with objects in 3 [[dimension]]s. For example, a drawing on a pie = Making 3D Problems 2D =2 KB (275 words) - 21:45, 27 August 2024
- We can use 3D coordinates. [[Category:Intermediate Geometry Problems]]6 KB (947 words) - 19:44, 26 November 2021
- This problem just requires a good diagram and strong 3D visualization. [[Category:Intermediate Geometry Problems]]3 KB (445 words) - 18:40, 4 July 2013
- ...egree arc, where <math>d < 120.</math> The length of the chord of a <math>3d</math>-degree arc is <math>- m + \sqrt {n}</math> centimeters, where <math> ...ree arc. Also let <math>x</math> be equal to the chord length of the <math>3d</math>-degree arc. Hence, the length of the chords, <math>AD</math> and <ma3 KB (561 words) - 18:25, 27 November 2022
- [[Category:Olympiad Geometry Problems]] [[Category:3D Geometry Problems]]4 KB (794 words) - 02:40, 7 December 2024
- [[Category: Olympiad Geometry Problems]] [[Category: 3D Geometry Problems]]2 KB (383 words) - 15:25, 29 July 2024
- == Introductory Topics in Geometry == The following topics make a good introduction to [[geometry]].1 KB (122 words) - 15:35, 24 August 2024
- The following topics provide a good study of intermediate [[geometry]]. * [[3D Geometry]]1 KB (143 words) - 15:25, 18 May 2021
- {{duplicate|[[2003 AMC 12A Problems|2003 AMC 12A #13]] and [[2003 AMC 10A Problems|2003 AMC 10A #10]]}} ...d. How many of the nine resulting polygons can be folded to form a [[cube (geometry) | cube]] with one face missing?3 KB (407 words) - 14:43, 19 August 2023
- ...tem'', as a result. Coordinate bashing is applying coordinates to geometry problems. There are two parts of the Cartesian plane: the [[Abscissa|x-coordinate]] *S.L.Loney elements of coordinate geometry vol 1 and 2.1 KB (152 words) - 21:50, 25 August 2024
- Use 3D analytical geometry, setting the origin as the center of the square base and the pyramid’s po Because <math>\overline{BH}=2</math>, we can use mass point geometry to get that <math>\overline{PX}=\overline{XH}</math>. <math>|\triangle{XHQ}7 KB (1,034 words) - 22:30, 18 June 2024
- ...ath>V = \frac 13 Bh</math>. Use the base as one of the three [[congruency (geometry)|congruent]] [[isosceles triangle]]s, with the height being one of the edge [[Category:Introductory Geometry Problems]]2 KB (317 words) - 09:10, 16 September 2022
- [[Category:Intermediate Geometry Problems]] [[Category:3D Geometry Problems]]2 KB (334 words) - 09:20, 16 September 2022
- [[Category:Introductory Geometry Problems]] [[Category:3D Geometry Problems]]2 KB (215 words) - 12:56, 19 January 2021
- [[Category:Olympiad Geometry Problems]] [[Category:3D Geometry Problems]]2 KB (301 words) - 22:29, 18 July 2016
- [[Category:Olympiad Geometry Problems]] [[Category:3D Geometry Problems]]2 KB (402 words) - 22:28, 18 July 2016
- [[Category:Olympiad Geometry Problems]] [[Category:3D Geometry Problems]]7 KB (1,214 words) - 17:49, 29 January 2018
- {{duplicate|[[2004 AMC 12A Problems|2004 AMC 12A #22]] and [[2004 AMC 10A Problems/Problem 25|2004 AMC 10A #25]]}} [[Category:Introductory Geometry Problems]]2 KB (382 words) - 20:36, 27 November 2024