Wormhole Startlet Incorporating Einstein 1935Sharon Xiao Liu. 11/09/2015.

Black hole, tunnel, white hole.

Google Scholar: wormhole

Google Scholar: General relativity. theory of relativity author:einstein.

http://journals.aps.org/pr/abstract/10.1103/PhysRev.48.73

https://www.google.co.uk/?gws_rd=ssl#q=einstein+rosen+general+relativity

The Particle Problem in the General Theory of Relativity

A. Einstein and N. Rosen

Phys. Rev. 48, 73 – Published 1 July 1935

http://www.nevis.columbia.edu/~zajc/acad/W3072/EinsteinWormhole.pdf

Einstein already wrote wormhole paper, so let's read it. It is unfinished work, because in 2005, wormholes remain science fiction.

WP10. Questions

WP9. Question 1

Does spaghettification happen at a black hole, and how big is the force?

What is a metric field?

WP8. Probable equation, (1)ds2=−d x12−d x2

2−d x32+α 2 x1

2d x42

A metric tensor describes a surface in space which has a force associated with it. The forces are described as a pair of vectors.

Vector calculus.

d s2

dx

Google search: is time a vector

x2 , x3 , x4 is space

x1 is time, because g (spacetime) vanishes at x1=0, and at a black hole, time stops.

This paper is described in plain English by Nigel Henbest in To The Ends of the Universe.

Spaghettification is when a person is stretched, so space is affected. Of course spaghettification happens, because Nigel Henbest said so. Does the equation predict spaghettification. Nigel Henbest’s illustration showed that one space vector became infinite.

x4 is the vector of space that gets stretched, because it is clearly special and different from x2 , x3.

Show that x4 goes to infinity. s may become zero. Then

dx42

ds

Goes to 0.

The force is infinite, because x4 goes to infinity. But Nigel Henbest says that a massive black hole produces less spaghettification. Of course, the black hole in the centre of the galaxy does not suck everything in, because this only happens when matter gets too close.

AH Kitzmiller, Why Spaghettification Does Not Occur

There is a lot of controversy about a black hole. We should send something into one.

x4 gives clues about the force. Does this equation suggest it goes to a particular number?

We know x4 is a variable. Constants help to pin down the variables.

gμv is the gravitational field. So is g. What is α?

WP8. Probable equation 2.

This equation has been selected because α is in it, and there is a constant σ .

WP9. Question 2

Is the bridge and white hole described in Einstein’s paper?

Some maths would help to shore up the theory/imagination.

WP9. Question 3

How do you build a wormhole? This question is important, because Einstein did not answer it. Of course not. Theoretical physics never makes anything, unless it is combined with engineering.

Money Tasklist Taskable: Murder paper first, meaning, you write your suspicions of the answer to a question you ask the paper before you look at a paper. Otherwise, you will be relying on your memory of somebody else’s interpretation. (copied)

A memory recorder, which transcribes meanings of memories, into plain language. (copied)

Memories get lost when you switch from one window to another in Microsoft Windows. (copied)

We already have black holes. Has anyone seen a white hole? Apparently the big bang was a white hole. Then why can we not see the centre of the universe with stars coming out? White holes close

up. So Nigel Henbest thinks that wormholes occur naturally, and if we go into a black hole, we will come out again in another universe. So if we want to build our own wormhole, we must go into a black hole and observe the white hole and the bridge in middle. We must also determine whether a wormhole is worth the while, because if it takes a long time to travel through the tunnel (Nigel Henbest)/bridge (Einstein), we cannot possibly afford to waste time building one within our own universe, to get to another planet, to save the human race from extinction in 7000 years’ time, after we have used up the planet’s resources.

After we have observed a wormhole, we can possibly create one ourselves, to go to another planet. Now, this is different to the classical wormhole. Maybe it is a quickbridge. (This name I thought up just now.) We can create a small quickbridge, to see if it works. Apparently, the large Hadron collider might even create small black holes. Now, a white hole is just a black hole, held up to a mirror which reverses spacetime configurations. So if a black hole is observed in the large Hadron collider, we could use this mirror to create a white hole. The small quickbridge would work like this:

When a piece of hair (orange) is fed into the black hole, it will immediately come out the other end. It will be like the space in between the black hole and the white hole does not exist.

Time + space dimension + space dimension + space dimension = Force

Taskable: To shore up your imagination when writing a paper, use maths; use what you have learned in school, is it addition and subtraction, replace numbers with Greek symbols. Look up Google scholar to find the maths which has the functionality you need.

t+s1+s2+s3= f

Black hole White hole

One end of hair

Other end of hair

Tunnel