Blasting the Lateral Dimension
SPACE1 has written the guidelines for the first series of Elevation Machine (EM) trips into space. The first Hop Missions will be farpoint excursion exploratory trips into the Lateral Dimension AFAP.
Long posed, trips into a sole lateral dimension AFAP are for testing purposes mainly, and include shooting out and vectoring to mountains that are ultimately ten, twenty, fifty and one hundred miles away. In the experiment and throttling the EM and since no humans are actually on board, one must contemplate an infinity throttling to see what will happen and exactly how far delving into the LD-AFAP is possible.
These Hop Missions will test the Lateral Dimension AFAP propulsive effectuals. Since there is no rocket fuel used as we know it, the goal will be to reach the targeting vector and hover above the target range of perfusion. The mathematics pathway is the solution for a horizontal asymptote. Horizontal asymptotes are horizontal lines that the graph of the function approaches as x tends to +∞ or −∞. As the name indicates they are parallel to the x-axis. If the polynomial in the numerator is a lower degree than the denominator, the x-axis (y = 0) is the horizontal asymptote. This begs the questions, what is the exploratory infinity approach vectoring limitation of a lateral induced horizontal asymptote pathway? Is there asymptote warping in the pathway? What is the limitation of an infinity trip? How far doe the Lateral Dimension AFAP extend into space? Does the Elevation Machine have any distance travel limits and if yes what are the limiting parameters? What is the amount of delta T to reach various common destinations, and the uncommon? What new things were discovered during the mission? What is the visible shape of the Lateral Dimension during space travel when the Elevation Machine is pumped up to a speed of 186 thousand miles per second? Based on ejectal time, plot a chart showing the distances of some object.
Elevation Machine (EM) Links
Space1 Elevation Machine Lateral Dimension Mission
https://space1usa.blogspot.com/2018/11/space1-elevation-machine-missions.html
Space1 Elevation Machine Core
https://space1usa.blogspot.com/2018/11/space1-elevation-machine-core.html
Space1 Elevation Machine Applications
https://space1usa.blogspot.com/2018/11/space1-elevation-machine-applications.html
Space1 Elevation Machine
https://space1usa.blogspot.com/2018/11/pace1-reach-rocket-elevations-through.html