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- Excuse, Tessa, - has told Krajl, - but I do not see a difference. If we move with huge superlight speed gravitation will not suffice time to affect ship movement in any case - whether it be a gravitational attraction or gravitational pushing away.- No, it not so. In that all charm of the theory to Vu; she explains, why is received not so. In the usual Universe where negative speeds reign, the more speed of movement of one body in relation to other, the smaller influence on a direction of movement of the first body renders a gravitational attraction between them. In the Universe of positive speeds, that is in hyperspace, the the first body is faster will mix up concerning the second, the it is more influence of gravitational pushing away on a movement direction. At first sight it seems paradoxical because we have got used to a situation dominating in our usual Universe, but it is necessary to force to change itself plus for a minus, and on the contrary as all falls into place.
- Perhaps, in the equations also becomes on places, but how much I can trust these equations?
- It is necessary to compare results of accounts to the facts simply.
Gravitational attraction - weakest of all interactions; gravitational pushing away at movement on a virtual way is same also. When we are in hyperspace, any particle in us, any particle of the ship pushes away particles all other, but this pushing away is so weak in comparison with other interactions not changing the sign and keeping all bodies in an integrity that outwardly occurs nothing. On the other hand, our virtual way from the Fourth station to that point of space where we are now, passed near to Jupiter, and its pushing away at our moving to hyperspace on a virtual way was same powerful what would be an attraction at movement on a usual real trajectory in usual space.
- We have calculated, as gravitational pushing away of Jupiter should influence a way of our ship through hyperspace. It has appeared that the settlement curvature of a way ideally coincides with position of the ship in space. In general Vu not only has simplified my equations, but also has made their useful, applicable in practice.
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