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| Architecture Technology & Practice Annual (1990) |
At it's core, geometry is the pure mathematics of points, lines, curves and surfaces. The study of geometry and its spatial extrapolations are at the very basis of all structures, with shape and form being derived from geometrics and the principles therein. The relationships between spatial elements and their properties is also considered a tenet of geometry through the understanding of space as defined by geometric principles and elements.
The science involved with electromagnetic properties is based heavily within a geometric work-frame, as the spatial analysis of fields and point-vectors requires more than the physics behind the actual generation of the field. Field lines and field strengths are expressed graphically, and the relationships between the analytical geometry represent the properties of the physical field generated by magnetic forces.
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