Following the example of Elsevier'sPeriodic Table of Elements*, this work outlines additional physical relationships and graphical tools for experimental interactivity. (* Elsevier Science Publishers .BV.) The 1987 chart inspired ideas of expanding graphical ranges and interactivity through a graphical user interface. In the early 1990's enersearch generated the following charts using a now extinct software (similar to Corel and Illustrator). Please bear with the low graphic quality and the experimental abreviation of elements listed. (The software was donated to a high school and for the moment can't be retrieved to obtain text and color information. Expanding color ranges was intended, to take advantage of evolving PCs, but only B&W printing was available to enersearch during that time. Nor has time and inspiration favored the continuation of this work. It is furnished "as is" in hopes of colaborative interest and inspiration. Nevertheless, the essence of the ideas are easily demonstrated as follows.)

The first interactive concept is to drag one chart (or more) over another chart to observe combined color-shade values. New inroads to physical properties might be found by graphically contrasting charted properties. Unfortunately only a hint of this feature is seen on this page, please try this. Click on a chart "half way" (click down and don't release button). Then drag the chart (button still down), over another chart. Note that as the chart is dragged, it becomes translucent. The objective would be to do so without loss of image size and with lasting ability to keep the images stacked for viewing the combined graphical effect. Chart examples follow.

The first two chart subjects were included in Elsevier's 1987 chart, but more color shades were added to explore possibilities of graphical potentials. Also the lanthanide and actinide series of elements were experimentally placed in numerical order,(in contrast to standard charts). So called newer elements were not deemed useful or relavent for these charts. Ability to move rows and columns might add exploration potential.

Successive increases of atomic weight gain was innovated by Bo. This concept should also apply to all other properties, (e.g.: successive changes of magnetic properties).

Magnetic Susceptibilities data was taken from "Magnetism An Introductory Survey" by E.W.Lee. This information reveals a charting weakness due to property ranges within single elements.

The remaining properties were taken from engineering references.

See more Enersearch pages.  Vortex flame amplifier: solid fuel burning experiment  Extra axial : twisting spins- poloidal Radial wave: rotated spins. Spiraling sphere models / "spinductor": spherical inductor "Nex'inductor": miscellaneous spins structures Tetra helix prism : refracted spin Knot like torsion structure : tetrahedral spin Tetrahedron derived curve. three fold spin Donut spiral: relation of poloid to the tetrahedron. Parasitic Antenna Elements... Geometric modeling some interference pattern See all other Enersearch pages.

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