Spacecraft propulsion is used to change the velocity of spacecraft and artificial satellites, or in short, to provide delta-v. There are many different methods. Each method has drawbacks and advantages, and spacecraft propulsion is an active area of research. Most spacecraft today are propelled by heating the reaction mass and allowing it to flow out the back of the vehicle. This sort of engine is called a rocket engine.
While the topic here is about how travel is possible, it is the idea that “new physics” can some how propelled forward the mass in space to do the things of travel necessary.
In addition, a variety of hypothetical propulsion techniques have been considered that would require entirely new principles of physics to realize. To date, such methods are highly speculative and include
Within the definitions of the literature it is then possible to deduce what is required? So this saves me the time while speaking to the new physics, of having to explain the rudimentary understandings of how I can leaped forward. No less, the idea of the “thought experiment” that is put in front of us that we create the dialogue necessary, with or without impute, to advance one’s thinking.
The term breakthrough propulsion refers to concepts like space drives and faster-than-light travel, the kind of breakthroughs that would make interstellar travel practical.
For a general explanation of the challenges and approaches of interstellar flight, please visit the companion website: Warp Drive: When? The Warp-When site is written for the general public and uses icons of science fiction to help convey such notions. This website, on the other hand, is intended for scientists and engineers.
How is a Blackhole Determined?
PLato:Remember the “closed loop process?”
From the “blackhole horizon” what value would, “to e or not to e” speak too, if “one” was falling into the blackhole and “one” was out? Are they separated? What is our “state of the universe” then?
A black hole is an object so massive that even light cannot escape from it. This requires the idea of a gravitational mass for a photon, which then allows the calculation of an escape energy for an object of that mass. When the escape energy is equal to the photon energy, the implication is that the object is a “black hole”.
IN the process of discovering the gravitational variances in space of “gravitational effects” how is it that a spaceship could become sensitive to the variations of that travel and slow down, if it did not have a way in which to calculate these fluctuations?
There’s a place from which nothing escapes, not even light, where time and space literally come to end. It’s at this point, inside this fantastic riddle, that black holes exert their sway over the cosmos … and our imaginations.
There’s a place from which nothing escapes, not even light? So I have to re-educate some people so that they understand the limtiations that have been applied to current thinking, by what is currently out there in terms of what we know about blackholes. So breaking from of those limitation on perspective is very important with what we know now. How we can determine a blackhole.
So here to then is a wider perspective about lagrangain perspective of space that is needed in the understanding of travel in space. Implications of ways and means to determine the needed velocities of the space craft to move forward within context of determinations of gravitational influences.
Special Lagrangian geometry in particular was seen to be related to another String Theory inspired phenomenon, “Mirror Symmetry”. Strominger, Yau and Zaslow conjectured that mirror symmetry could be explained by studying moduli spaces arising from special Lagrangian geometry.
Dr. Mark Haskins
So while our imagination is being captured by this “gravitational concentration” in the cosmos what use to discern the nature of the “closed loop process” if we did not consider the “thought experiment” of Susskind as I have spoken to it in the last couple of posts?
Hawking radiation owes its existence to the weirdness of the quantum world, in which pairs of virtual particles pop up out of empty space, annihilate each other and disappear. Around a black hole, virtual particles and anti-particles can be separated by the event horizon. Unable to annihilate, they become real. The properties of each pair are linked, or entangled. What happens to one affects the other, even if one is inside the black hole.
The first order of business here is that we use methods based on the understanding of the “link of entanglement” around what is inside the blackhole as a measure? What that photon is telling us in relation to the gravitational considerations influencing the space craft? IN this way, “calibration technique” allows for variances in the determination of what we see in the perspective of the cosmos as a vital differential understanding of that pathways through space.
IN “weak field understanding” we know the loop process is symmetric? Also, if gravity is combined to electromagnetism, what value the photon for determination if we had not understood this relation to gravitation effects in the cosmos? So this process then is understood in terms of developing the means to travel in space that was before not so easily determined(escape velocities for mass in space), but has now been shattered by moving beyond the paradigms of previous thought processes?
This is the benefit of thinking “thought experiments” to progress any idea. Now what has been written here, is it right or wrong?
The Propulsion System?
Also no where have I revealed the propulsion system need in order for the space craft to exceed the gravitational variances within the cosmos
Gamma Ray production in particle creation?
The Pierre Auger Observatory in Malargue, Argentina, is a multinational collaboration of physicists trying to detect powerful cosmic rays from outer space. The energy of the particles here is above 1019eV, or over a million times more powerful than the most energetic particles in any human-made accelerator. No-one knows where these rays come from.
Such cosmic rays are very rare, hitting an area the size of a football field once every 10 000 years. This means you need an enormous ‘net’ to catch these mysterious ultra high energy particles. The Auger project will have, when completed, about 1600 detectors.
Understanding the collision process within context of our own planet, and what information is received from other events within the cosmos allows us “to rebuild” what happens no less then what “LIGO operations” and it’s gathering techniques, allows us from the complexity of the information to a thing of beauty?
So how shall we identify such sources if we had not considered the “light house effect?”