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69 | 69 |
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71 | 71 | <meta name="viewport" content="width=device-width, initial-scale=1.0, maximum-scale=1.0"> |
72 | | -<meta name="description" content="History and detailed disapproval of the mathematical constant π; derivation of the properties of shapes from the area of a circle."> |
| 72 | +<meta name="description" content="Is there a more accurate way to calculate area and volume in the real world? The Core Geometric System offers a compelling alternative to conventional geometry, exploring fundamental relationships and providing precise formulas based on empirical considerations. Discover a new approach to circles, spheres, and other shapes, and explore its potential in diverse fields from engineering to quantum computing."> |
73 | 73 | <meta name="author" content="type=PostalAddress, |
74 | 74 | addressLocality=Szentendre, |
75 | 75 | addressRegion=Hungary, |
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93 | 93 | telephone=+36305075125, |
94 | 94 | url=https://www.x.com/gmac4247"> |
95 | 95 | <meta name="twitter:title" content="About Basic Geometry Formulas"> |
96 | | -<meta name="twitter:description" content="History and detailed disapproval of the mathematical constant π; definition and derivation of the properties of shapes from the area of a circle."> |
| 96 | +<meta name="twitter:description" content="Is there a more accurate way to calculate area and volume in the real world? The Core Geometric System offers a compelling alternative to conventional geometry, exploring fundamental relationships and providing precise formulas based on empirical considerations. Discover a new approach to circles, spheres, and other shapes, and explore its potential in diverse fields from engineering to quantum computing."> |
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173 | 173 | }, |
174 | 174 | "dateCreated" :"2024-08-31", |
175 | 175 | "datePublished":"2024-08-31", |
176 | | -"dateModified" :"2025-04-30", |
177 | | -"description" :"History and detailed disapproval of the mathematical constant π; definition and derivation of the properties of shapes from the area of a circle.", |
178 | | -"disambiguatingDescription": "Exact formulas. No pi.", |
| 176 | +"dateModified" :"2025-05-05", |
| 177 | +"description" : "Is there a more accurate way to calculate area and volume in the real world? The Core Geometric System offers a compelling alternative to conventional geometry, exploring fundamental relationships and providing precise formulas based on empirical considerations. Discover a new approach to circles, spheres, and other shapes, and explore its potential in diverse fields from engineering to quantum computing.", |
| 178 | +"disambiguatingDescription": "Disapproval of the conventional formulas and the mathematical constant pi.", |
179 | 179 | "image":[ |
180 | 180 | "equityFigure.jpg", |
181 | 181 | "recycle.png", |
182 | 182 | "sphereSurface.jpeg" |
183 | 183 | ], |
184 | | -"headline" : "Disapproval of the mathematical constant π", |
| 184 | +"headline" : "Introducing the Core Geometric System ™.", |
185 | 185 | "inLanguage":"en-us", |
186 | 186 | "isFamilyFriendly":"true", |
187 | 187 | "keywords":"Core Geometric Systems, Accurate Geometric Calculations, Engineering Design Solutions, Computer Graphics Rendering, Algorithm Optimization, Quantum Computing Applications, Scientific Research Applications", |
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242 | 242 | } |
243 | 243 | ], |
244 | 244 | "url": "https://basic-geometry.github.io/about/", |
245 | | -"usageInfo":"Learn about historical and exact geometric concepts." |
| 245 | +"usageInfo":"Calculate area and volume with enhanced accuracy using the Core Geometric System. This innovative framework provides a practical alternative to traditional methods, rooted in comparative geometry and scaling principles. Learn exact formulas for circles (A = 3.2r^2, C = 6.4r), spheres (V = (\sqrt{3.2}r)^3), cones, and more, with applications in engineering, computer graphics, and scientific research." |
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286 | | -"description": "Determining the volume of a sphere", |
| 286 | +"description": "Real physical experiment to measure the volume of a sphere. Prepare to be amazed. The result proves the accuracy of the V=(√(3.2)r)³ formula over the conventional V=4/3πr³.", |
287 | 287 | "duration": "PT1M26S", |
288 | 288 | "name": "The sphere experiment", |
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297 | | -"usageInfo": "Learn about the history of the mathematical constant π, why it is wrong, and how the area and the circumference of a circle can be calculated." |
| 297 | +"usageInfo": "Discover the Core Geometric System, a groundbreaking framework offering a fresh perspective on calculating area and volume using a 3D coordinate system. Challenging conventional formulas, this system provides empirically-grounded alternatives with a focus on practical accuracy for real-world applications in engineering, design, science, and beyond. Explore exact values and intuitive geometric relationships for circles, spheres, cones, and more." |
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