This stunning simulation of Calabi-Yau spaces at each point in 3-d space was created by Jeff Bryant and based on concepts from A.J. Hanson, “A Construction for Computer Visualization of Certain Complex Curves,” in “Computers and Mathematics” column, ed. Keith Devlin, of Notices of the American Mathematical Society, 41, No. 9, pp. 1156–1163 (American Math. Soc., Providence, November/December, 1994). See his website for details.
We know that we need at least 4 to keep track of things: The three dimensions of space that give us freedom to move Up-Down, Left-right, and forward-backward, plus the dimension of time. These dimensions of spacetime form the yellow gridwork in the image above. At each intersections you have a new location in space and time, and mathematically there are a infinite number of these coordinate points. But the real world may be different then the mathematical ideal. There may not be an infinite number of points between 0 and 1, but only a finite number.
We know that you can sub-divide space all the way down to the quantum realm and to distances and times of 10^-20 cm and 10^-30 seconds and spacetime still looks perfectly smooth to the physics we observe there, but what if we go down even further? Since the 1940s, a simple calculation using the three fundamental constants h, c and G has turned up a smallest quantum distance of 10^-33 cm and 10^-43 seconds called the Planck Scale. In our figure above, the spacings in the yellow grid are at this scale of intervals, and that is the smallest possible separation for physical processes in space and time..it is believed.
Since the 1970s, work on the unification of forces has uncovered a number of ideas that could work, but nearly all require that we add some additional dimensions to the four we know. All of these extra dimensions are believed to appear at the Planck scale, so they are accessible to elementary particles but not to humans.In string theory, these added dimensions are rolled up into identical but complex mini-geometries like the ones shown above.
No one has the faintest idea how to go about proving that other dimensions really exist in the microcosm. The energies are so big that we cannot figure out how to build the necessary accelerators and instruments. We know that Mother Nature is rather frugal, so I would be very surprised if more than 4 dimensions existed.There have been many proposals since the 1920s to increase the number of dimensions to spacetime beyond the standard four that relativity uses. In all cases, these extra dimensions are vastly smaller than an atom and are not accessable to humans…fortunately!
Current string theory proposes 6 additional dimensions while M-theory allows for a seventh. These additional dimensions are sometimes called ‘internal degrees of freedom’ and are related to the number of fundamental symmetries present in the physical world at the quantum scale. The equations that physicists work with require these additional dimensions so that new symmetries can be defined that allow physicists to understand physical relationships between the various particle families.
They think these are actual, real dimensions to the physical world, only that they are now ‘compact’ and have finite sizes unlike our 4 dimensions of space and time which seem almost to be infinite in size. The figure above shows what these compact additional dimensions look like, mathematically. Each point in 4 dimensional space-time has another 6 dimensions attached to it which ‘particles and forces’ can use as extra degrees of freedom to define themselves and how they will interact with each other. These spaces are called Calabi-Yau manifolds and it is their 6-dimensional geometry that determines the exact properties of fundamental particles.
Do not confuse them with ‘hyperspace’ because the particles do not actually ‘move’ along these other dimensions. They are not ‘spatial’ dimensions, but are as unlike space and time as time is unlike space!