Clementine Project Information

Clementine was a joint project between the Strategic Defense Initiative Organization and NASA. The objective of the mission was to test sensors and spacecraft components under extended exposure to the space environment and to make scientific observations of the Moon and the near-Earth asteroid 1620 Geographos. The observations included imaging at various wavelengths including ultraviolet and infrared, laser ranging altimetry, and charged particle measurements. These observations were originally for the purposes of assessing the surface mineralogy of the Moon and Geographos, obtaining lunar altimetry from 60N to 60S latitude, and determining the size, shape, rotational characteristics, surface properties, and cratering statistics of Geographos.

Look at Clementine and the moon. The way they measured gravity there( the satellite lag)? The geological perspective gained from mapping the moon? The frames of reference are thus quite dynamical when you use this perspective to gain new insights developed from the work of Einstein.

Green Cheese?

The Clementine gravity experiment used measurements of perturbations in the motion of the spacecraft to infer the lunar gravity field

The complexity of measuring events in the cosmos, was to see information contained in what exists around us now. Using various locations they are trying to ascertain simultaneous correspondances in the signals from these cosmological locations, as a well as use the distance between these earth based locations.

Gravity for instance, varies with Time

Gravity is “flavor blind,” so when a microscopic blackhole evaporates it produces all the Standard Model particles with equal probability. Once one accounts for spin and color, it turns out that particles produced when a blackhole decays are about 72 percent quarks and Gluons, 18 percent leptons, and the rest are bosons. Such a distinctive shower of particles would be hard to miss. So there is the possibility that the Pierre Auger Observatory will detect blackholes.

Page 262, Out of this World, by Stephen Webb

In a complex world of uncertainty this is hard to do, so you look for the ways to see how the cosmic rays create the situations for particle production. So you look for the origins of any number system that began, and how it was used to explain the natural world.

An Excursion into the Dimensions of Numbered Systems

An example here would be using Pascal’s triangle. If you “blanket” using resonances pertaining to all number deveopements, then we might understand the harmonies created? Topological movements?

In a euclidean world, the developing geometries will lead somewhere, but how did you every arrive from topological states to euclidean frames of reference? You had to understand the physics process.

So from space to earth, the earth, a final physical state. But you understand that it existed in other states as well? That’s where you learn to use the physics.

This entry was posted in Colour of Gravity, Complexity, Cosmic Rays, Earth, Einstein, Fly's Eye, Gravity, imagery, Microscopic Blackholes, Moon, Moon Base, Oh My God Particle, Particles, Pierre Auger, Quarks, Standard model and tagged , , , , , , , , , , , , , , , . Bookmark the permalink.

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