primary ship design

© 2005 Nikola Romanski

Special Relativity of Emanations Surrounding the focal moment of reconversion in gravitational singularity.
Special Relativity
© 2005 Nikola Romanski

A new direction for Plasma Reactors

By using the Kerr rotational equations of Singularity to configure the magnetic field compression ( Schwarzchild, Tipler [Blazars, natural explosive deviation] on the special properties of harmonic wave reconversions and specific resonance) of the Plasma compression in the reactance coupling device, Reciprocal Feedback can be achieved with the correct tuning of resonance / harmonics. This is especially useful in the utilization of the heavy electron (geon) populations in the magnetohydrodynamic induction process. Another note on the kerr singularitity ( rotational / gravitational ) is that matter (mass) is a byproduct of the energy function of the realtime moment of singularity that occurs significantly outside the primary event horizon. { This implies multiple singularities in the timespace metric, each having their own relativity within or without. And it is important to note that in the process of a singularity moving through spacetime over billions of millenia matter (mass) is continuously formed from the stagnating energy. It also collects matter (mass) that has been produced by other singularity events that may have long ago died or were consumed into our relativity.}
(worldline convergence)

SI multiples

MultipleNameSymbolMultipleNameSymbol
100secondS   
101decaseconddaS10–1deciseconddS
102hectosecondhS10–2centisecondcs
103kilosecondks10–3millisecondms
106megasecondMs10–6microsecondµs
109gigasecondGs10–9nanosecondns
1012terasecondTs10–12picosecondps
1015petasecondPs10–15femtosecondfs
1018exasecondEs10–18attosecondas
1021zettasecondZs10–21zeptosecondzs
1024yottasecondYs10–24yoctosecondys

Attosecond


(This definition follows U.S. usage in which a billion is a thousand million and a trillion is a 1 followed by 12 zeros.) An attosecond is one quintillionth (10-18) of a second and is a term used in photon research. For comparison, a millisecond (ms or msec) is one thousandth of a second and is commonly used in measuring the time to read to or write from a hard disk or a CD-ROM player or to measure packet travel time on the Internet. A microsecond (us or Greek letter mu plus s) is one millionth (10-6) of a second. A nanosecond (ns or nsec) is one billionth (10-9) of a second and is a common measurement of read or write access time to random access memory (RAM). A picosecond is one trillionth (10-12) of a second, or one millionth of a microsecond. A femtosecond is one millionth of a nanosecond or 10-15 of a second and is a measurement sometimes used in laser velocimeter technologies.

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