Euclidean geometry is a mathematical system attributed to ancient Greek mathematician Euclid, which he described in his textbook on geometry; Elements. Euclid's approach consists in assuming a small set of intuitively appealing axioms (postulates) and deducing many other propositions (theorems) from these. Although many of Euclid's results had been stated earlier, Euclid was the first to organize these propositions into a logical system in which each result is proved from axioms and previously proved theorems.
The Elements begins with plane geometry, still taught in secondary school (high school) as the first axiomatic system and the first examples of mathematical proofs. It goes on to the solid geometry of three dimensions. Much of the Elements states results of what are now called algebra and number theory, explained in geometrical language.
For more than two thousand years, the adjective "Euclidean" was unnecessary because no other sort of geometry had been conceived. Euclid's axioms seemed so intuitively obvious (with the possible exception of the parallel postulate) that any theorem proved from them was deemed true in an absolute, often metaphysical, sense. Today, however, many other self-consistent non-Euclidean geometries are known, the first ones having been discovered in the early 19th century. An implication of Albert Einstein's theory of general relativity is that physical space itself is not Euclidean, and Euclidean space is a good approximation for it only over short distances (relative to the strength of the gravitational field).
We construct buildings and datum lines e.t.c. using Euclidean geometry, not spherical geometry.
Reality = when you zoom in on a curve it flattens out, which you denied, and then you ran away like a little bitch after I showed you step-by-step how to confirm this for yourself.
When you construct buildings, you don't worry if you're off by 10 millionths of a meter at the extreme end, flattard.
A sphere has just one surface and that is curved. Since there is no flat surface on a sphere, the curved surface area of a sphere is equal to its total surface area of the sphere which is 4πr2.
No matter how theoretically large the sphere is. IT WILL NEVER BE FLAT OR LEVEL.
When we construct buildings, we use Euclid geometry. We utilize Euclidean tools such as a Water Level. There is no deviation of "10 millionths of a meter" because the dimensional properties of a sphere dictates that after 1 mile, that "1 millionth of a meter" has now turned into 8 inches of supposed curvature. Then because of the properties of a sphere after another mile the measurable curvature should be 32 inches. This is because of 4πr2 and why it is not possible to physically measure this curvature because IT DOES NOT EXIST.
Which can approximate a flat line when zoomed in. You denied it, then ran away like a little bitch when I proved it.
When we construct buildings, we use Euclid geometry.
Because the curve at the level of buildings doesn't matter. And even if it did you flatten the ground out anyways. You know, hills exist, even in Flattard Land, and flattening the ground is one of the first things done in construction.
because the dimensional properties of a sphere dictates that after 1 mile, that "1 millionth of a meter" has now turned into 8 inches of supposed curvature
Then because of the properties of a sphere after another mile the measurable curvature should be 32 inches of curvature. This is because of 4πr2 and why it is not possible to physically measure this curvature because IT DOES NOT EXIST.
Lulz. We can measure it six ways from Sunday, flattard. Morons like you deny all the evidence because it destroys your tiny brain world view.
Why are you feeding the troll? Practical geometry in the Trades will conflict with the theoretical geometry on the regular. All that you're gonna achieve here is giving GFC free internet points
Why do you dismiss me as a troll? You can't refute my facts, you will postulate the same nonsensical bullshit that he is stating such as "a straight line is a curve zoomed in" and then you will most likely go and watch some professor Dave videos to brush up on some kike talking points.
You people are the 'Agent Smiths' of the matrix and you don't even realize it.
You're applying a perfect concept to an imperfect perception. A straight line is still straight, a curved line is still curved even if it appears to be straight, but when you're building a structure over an extreme distance you dont add a .0001° bevel to the edge of a material unless you're building something that has to be absolutely precise. This concept is referred to as tolerance
[ + ] GetFuckedCunt
[ - ] GetFuckedCunt [op] 0 points 2.1 yearsMar 24, 2023 11:27:01 ago (+1/-1)
Planar geometry = Straight lines, level, horizontal.
Spherical geometry = "when you zoom in on a curve it flattens out" ~ chrimony
[ + ] chrimony
[ - ] chrimony 0 points 2.1 yearsMar 24, 2023 13:39:50 ago (+0/-0)
When you construct buildings, you don't worry if you're off by 10 millionths of a meter at the extreme end, flattard.
[ + ] GetFuckedCunt
[ - ] GetFuckedCunt [op] 1 point 2.1 yearsMar 24, 2023 21:23:01 ago (+1/-0)*
No matter how theoretically large the sphere is. IT WILL NEVER BE FLAT OR LEVEL.
When we construct buildings, we use Euclid geometry. We utilize Euclidean tools such as a Water Level. There is no deviation of "10 millionths of a meter" because the dimensional properties of a sphere dictates that after 1 mile, that "1 millionth of a meter" has now turned into 8 inches of supposed curvature. Then because of the properties of a sphere after another mile the measurable curvature should be 32 inches. This is because of 4πr2 and why it is not possible to physically measure this curvature because IT DOES NOT EXIST.
https://files.catbox.moe/01iccp.jpg
[ + ] chrimony
[ - ] chrimony 0 points 2.1 yearsMar 24, 2023 21:41:37 ago (+0/-0)
Which can approximate a flat line when zoomed in. You denied it, then ran away like a little bitch when I proved it.
Because the curve at the level of buildings doesn't matter. And even if it did you flatten the ground out anyways. You know, hills exist, even in Flattard Land, and flattening the ground is one of the first things done in construction.
So what? We don't make buildings 1 mile in length. And if you're making a long bridge, those tend to have curves built into them anyways. But supposedly they took the curvature of the Earth into account when building this bridge: https://www.mathscinotes.com/2017/01/effect-of-earths-curvature-on-suspension-bridge-dimensions/
Lulz. We can measure it six ways from Sunday, flattard. Morons like you deny all the evidence because it destroys your tiny brain world view.
[ + ] Clueless_Enigma
[ - ] Clueless_Enigma 0 points 2.1 yearsMar 25, 2023 03:24:54 ago (+0/-0)
[ + ] chrimony
[ - ] chrimony 0 points 2.1 yearsMar 25, 2023 04:55:39 ago (+0/-0)
[ + ] GetFuckedCunt
[ - ] GetFuckedCunt [op] 0 points 2.1 yearsMar 26, 2023 07:52:13 ago (+0/-0)
You people are the 'Agent Smiths' of the matrix and you don't even realize it.
[ + ] Clueless_Enigma
[ - ] Clueless_Enigma 0 points 2.1 yearsApr 3, 2023 08:09:16 ago (+0/-0)