Euclidean Geometry ruled mathematics for 2 millennia. Even
today a beginner in mathematics would believe that Euclidean geometry is perfect and it is impossible to prove it
wrong. Why is it so? The answer is Euclidean Geometry is based on our common
sense and our day-to-day experiences. However modern physics and mathematics is
beyond common sense.
What does our common sense say? Famous philosopher Aristotle in his book On heaven wrote “The line has magnitude
in one way, the plane in two ways, and the solid in three ways, and beyond
these there is no other magnitude because the three are all.” Further astronomer
Ptolmey came up with proof for this. His
proof was simple: there can be only three lines mutually perpendicular to each
other.
Bernhard Riemann, a student of the famous mathematician Gauss, came
up with an alternative to Euclidean Geometry. He proposed Hyperspace. Before understanding hyperspace let us imagine a race
of two-dimensional creature living on a sheet of paper. Their day-to-day
experience will make them conclude that they live in a two dimensional world
and as they don’t experience anything three dimensional, mathematicians in this
flat world would conclude that only 2 dimensions exists and more than two dimensions is nonsense.
 |
Riemann imagined the same world of flatlanders but on a crumpled sheet of paper. What would these
flatlanders feel now? Riemann concluded that flatlanders would still find their
world flat as they themselves are crumpled. However when they try to walk in
this crumpled world they would experience unseen mysterious force acting on them
making them move right and left like a drunkard. However we know that this
force experienced by the flatlanders is nothing but effect of the uneven terrain
in which they live.
He then applied the same to our world. He predicted force to
be a result of unevenness of the terrain of the three dimensional world we live
in viewed from forth spatial dimension.
 |
| Type of plane | Parallel Lines | Sum of angles triangle |
|---|---|---|
| Flat Plane | Never meets | is exactly 180o |
| Positively Curved Plane | Never meets | is greater than 180o |
| Negatively Curved Plane | Always meet | is less than 180o |
Riemann’s main aim was to mathematically explain how
crumpled the sheet is. He was successful in this by the introduction of set of
number defining how crumpled the space is at a given point. Let us take the
example of four dimensional space. Riemann realized that to define a point at a
point he needs 10 numerical values. This was represented in a 4x4 board as
follow (note that g12=g21 and so on. Therefore six values are redundant)
| g11 | g21 | g31 | g41 |
|---|---|---|---|
| g12 | g22 | g32 | g42 |
| g13 | g23 | g33 | g43 |
| g14 | g24 | g34 | g44 |
These sets of numbers are called metric tensor. It is used to
get all mathematical information needed to describe how curved or crumpled a
point in N-dimensions.
A tesseract (4D of a cube) undergoing double rotation in 4D space.
A tesseract (4D of a cube) undergoing double rotation in 4D space.
" mathematicians in this flat world would conclude that only 2 dimensions exists and more than two dimensions is nonsense. "
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WRONG...MORE THAN 2 DIMENSIONS IS NOT NONSENSE... ITS MORE THAN OUR SENSES..OR..OUT OF SENSE.
Sir, this is a sarcastic comment on mathematicians of Riemann's era who called his work as magic with maths which has no significant use.
DeleteI can understand that Saikat Chakraborty but it depends on your persoective.
DeleteMaybe you want to include a citation to Nikolai Lobatchewsky, he was the one who realized the geodesic and tractrix were non-Euclidean. Riemann followed him with a more general geometry of which Euclid's and Lobatchewsky,s are special cases.
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