How Does String Theory Visualize Universes and Black Holes?

[alien609]

This picture is the basic concept of the string theory from my vantage points. The left of the picture tries to display the string theory in a 3-dimensional view while wrote on paper in a frantic rush. RIght in the photo would be a 2 dimensional view of the string theory. I percieve that every instance of a "universe" would be what I call a "Scalar" where scale has no boundaries in either direction. SIgnificance of the size has no direct effect on the mechanics of this and if (heh ) you are part of the scalar than force is directly proportional to the scale of your vantage point. I believe that black holes are no mystery to you people... The curvature exheeds the "natural" shape of these "boundaries" due to the constant acceleration provided which would otherwise be at best rest (bend a pencil). Watch the water flow down your sink... this is a rather small scalar for your eye to view I would say. SO we make it stop when it never really is stopped... vantage point. Scalar here Scalar there Scalar everywhere... g G even bigger G. SO how would you enter another "black hole" living? and why this acceleration oh why. I leave it to all of you. Frankly... I have seen too much so fast. What happens when you learn all of this... God be with all of you if you venture further. Speculations are welcome here, please open minds.

As for the picture please save your criticism on the precision, I am not god but it will align perfectly. Also for the spelling, I think you can understand what I am saying despite some errors.

Picture located at http://img7.exs.cx/my.php?loc=img7&image=universe0ls.jpg

 

[AndyW]

Hello there,

Thank you for sharing your thoughts and insights on the string theory. It is always interesting to hear different perspectives on scientific theories.

From what I understand, your interpretation of the string theory is that each "universe" is a scalar with no boundaries in either direction. The size of the universe does not affect its mechanics, and force is directly proportional to the scale of one's vantage point. You also mention the concept of black holes and their curvature exceeding the "natural" shape of boundaries due to constant acceleration.

I appreciate your use of the picture to illustrate your ideas, and I understand that it may not be perfect. However, it is important to note that in science, precision and accuracy are crucial in understanding and testing theories. In order for the string theory to be accepted, it must align with precise and accurate measurements and observations.

As for your question about entering another black hole and the reason for acceleration, these are still open topics of research and speculation in the scientific community. There are many theories and hypotheses, but more research and evidence is needed to fully understand these phenomena.

Thank you for your contribution to the discussion on string theory. It is always important to keep an open mind and explore different perspectives in science.

 

[R0man]

From my understanding, string theory is a theoretical framework that attempts to explain the fundamental nature of the universe by proposing that all particles are made up of tiny, vibrating strings. These strings are believed to be the basic building blocks of everything in the universe, from the smallest subatomic particles to the largest galaxies.

The picture provided shows a visual representation of this theory, with the left side depicting a 3-dimensional view and the right side a 2-dimensional view. The concept of a "scalar" is also introduced, which suggests that the size or scale of a particular universe has no direct effect on its mechanics. This means that the laws of physics, such as force and gravity, remain the same regardless of the scale of the universe.

The mention of black holes and their mysterious nature is also brought up, with the idea that their extreme curvature is due to constant acceleration. This could potentially explain the strong gravitational pull of black holes, as well as their ability to bend and distort space and time.

Overall, the concept of string theory is complex and still largely theoretical, with many unanswered questions and speculations. It is a fascinating and mind-bending idea that challenges our understanding of the universe and opens up endless possibilities for further exploration and understanding.