Article in Journal of the British Interplanetary Society · February 012 Source: arXiv citations 23 reads 4,982 author: Some of the authors of this publication are also working on these related projects



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Advanced Space Propulsion Based on Vacuum Spacetim
TESLA COIL HANDBOOK, Desenvolvimento de Momentum
3.2
Spatial Interval
Again, by considering the case typical for an altered spacetime metric in the vicinity of, say, a stellar mass 1
g

>
for the radial dimension x
1
= r – see second term in Eq. (Therefore, local measurements with physical rulers within the altered spacetime yield a spatial interval
11
g dr dr

>
thus a spatial interval dr between two locations in an undistorted spacetime (say, remote from the mass) would be judged by local (proper) measurement from within the altered spacetime to be greater,
11
g dr dr

>
From this it can be rightly inferred that, relatively speaking,
rulers (including atomic spacings, etc) within the altered spacetime are shrunken relative to their values in unaltered spacetime. Given this result, a physical object (e.g., atomic orbit) that possesses a measure
r in unaltered spacetime shrinks to
11
r
r
g
∆ → when placed within the altered spacetime. Conversely, under conditions for which
TABLE 1: Metric Effects on Physical Processes in an Altered Spacetime as Interpreted by
a Remote (Unaltered Spacetime) Observer.
Variable
Typical Stellar Mass
Spacetime-Engineered Metric
(
)
00
11
g
< 1,
g
> 1
(
)
00
11
g
> 1,
g
< 1
Time Interval
processes (e.g., clocks)
processes (e.g., clocks)
00
t
t
g
∆ → run slower run faster
Frequency
red shift toward blueshift toward
00
g
ω
ω

lower frequencies higher frequencies
Energy
energy states lowered energy states raised
00
E
E g

Spatial measure
objects (e.g., rulers) shrink objects (e.g., rulers) expand
11
r
r
g
∆ → ∆


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