Source: ULTIMATE SPACE (CH-XV)
In this chapter-XV, I discuss about the “Gravity’s Particles” and hence their interaction with the some kind of weird uncertain particles. As we know “Uncertainty Principle” applies on microscopic world and one cannot determine particles position and velocity simultaneously. But in this chapter, this uncertainty really happens in some stronger region in space such as “Black Holes”, “Wormholes”, White Holes”, “Quantum Fluctuations”? This creates some difference between uncertainty and its actual meaning.
Gravity’s particles that have stronger field create stronger impact in space and particles that exists at that time are “microscopic” then these particles come in contact with gravity’s particles (that is space itself) and these particles (that is other particles) synthesize with gravity’s particles and what will happen (only a excerpt). One says that other particles slow down their velocity but at that same time are these particles also slow down their position? Yes, of course these particles are able to do this and hence produce some “Low space field” where these particles are able to slow down their position as well as velocity. This case exists also in “Uncertainty Principle” but question is at that point when particle accelerates its velocity and hence at that time it alters its position then this is difficult for us to determine this process. But in case of “stronger field of gravity” what will happen? Is this particle survive for some time to extends its own created field or associate with the space particles so as to create some uncertainties.
This means “space particles” are responsible for uncertainty and one has to understand “space particles” to understand the particles presence simultaneously. This assists us to open the doors of “quantum uncertainty” and develop a better quantum world. In next chapter, I will discuss about “space particles” and its aspects on uncertainty.
Source: ULTIMATE SPACE (CH-XIV)
In this chapter-XIV, I discuss on “Uncertainty Principle” and why this principle is so uncertain that no one find the exact definition of this principle. This principles describes how particles are uncertain whether it is wave also.
But this principle applies for microscopic world, not for macroscopic world. Every particles in this entire universe are uncertain whether these particles are in form of wave or as a light’s particles. Uncertainty happens like a complex geometry of space. Uncertainty does not mean “instability of particles” but our “quantum sense” cannot measure this and ultimately one cannot determine the particle’s velocity and position. This is not accurate for us but is more accurate for every particles those interact with each other. There are so many reasons that assists the “quantum behavior of these particles”.
Uncertainty arise when very small particles travel through medium and hence one is unable to determine its velocity and position. Yes, one will able to determine velocity at one time but not position at that time and similar for determining the position but unable to determine velocity. Only need for this principle is for “Microscopic world” not for “”Macroscopic world”. But question arises, if we determine the velocity and position of the particle simultaneously then what will happen? Can we able to understand the chaos theory of light’s particles or we are able to find the exact and creative definition of light’s velocity until one finds his opinion on “Particles into Black Holes”? I mentioned the term “Black Hole” that means gravity is sufficient for causing the particles real certainty and hence determine the lowest possibility of particles.
Is there something that hides the real nature of “uncertainty” and consider this principle as a “universal and accurate”? In next chapter, I will discuss about the “gravity’s particles” and their interaction with some weird uncertainty.
Source: “MATERIALISM SCIENCE”