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String theory basics
String theory basics
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If string theory is a theory of gravity, then how does it compare with Einstein's theory of gravity? What is the relationship between strings and spacetime geometry?
Strings and gravitons
The simplest case to imagine is a single string traveling in a flat spacetime in d dimensions, meaning that it is traveling across space while time is ticking, so to speak. A string is a one-dimensional object, meaning that if you want to travel along a string, you can only go forwards or backwards in the direction of the string, there is no sideways or up and down on a string. The string can move sideways or up and down in spacetime, though, and as the string moves around in spacetime, it sweeps out a surface in spacetime called the string worldsheet, a two-dimensional surface with one dimension of space and one dimension of time.
The string worldsheet is the key to all the physics of the string. A string oscillates as it travels through the d-dimensional spacetime. Those oscillations can be viewed from the two-dimensional string worldsheet point of view as oscillations in a two-dimensional quantum gravity theory. In order to make those quantized oscillations consistent with quantum mechanics and special relativity, the number of spacetime dimensions has to be restricted to 26 in the case of a theory with only forces (bosons), and 10 dimensions if there are both forces and matter (bosons and fermions) in the particle spectrum of the theory.
So where does gravity come in?
If the string traveling through spacetime is a closed string, then the spectrum of oscillations includes a particle with 2 units of spin and zero mass, with the right type of interactions to be the graviton, the particle that is the carrier of the gravitational force.
Where there are gravitons, then there must be gravity. Where is the gravity in string theory?
Strings and spacetime geometry
The classical theory of spacetime geometry that we call gravity consists of the Einstein equation, which relates the curvature of spacetime to the distribution of matter and energy in spacetime. But how do the Einstein equations come out of string theory?
If a closed string is traveling in a curved spacetime, then the coordinates of the string in spacetime feel this curvature as the string propagates.
The characteristic scale of gravitational mi- crolensing is the radius of the Einstein ring RE. The Einstein ring occurs when lens and source are aligned and the light from the source is shaped into a ring through the gravitational lensing by the gravitational field of the ”lensing” ob- ject.
If gravity is equivalent to acceleration, and if motion affects measurements of time and space (as shown in Special Relativity), then it follows that gravity does so as well.In particular, the gravity of any mass, such as our sun, has the effect of warping the space and time around it.
• The first is the Special Theory of Relativity, which essentially deals with the question of whether rest and motion are relative or absolute, and with the consequences of Einstein’s conjecture that they are
Part I: The Edge of Knowledge Chapter 1: Tied Up with Strings This is the introductory section, where the author, Brian Greene, examines the fundamentals of what is currently proven to be true by experimentation in the realm of modern physics. Green goes on to talk more about "The Basic Idea" of string theory. He describes how physicists are aspiring to reach the Theory of Everything, or T.O.E. Some suspect when string theory is completely understood that it might turn out to become the T.O.E.Part II: The Dilemma of Space, Time, and Quanta Chapter 2: Space, Time, and the Eye of the Beholder In the chapter, Greene describes how Albert Einstein solved the paradox about light. In the mid-1800's James Maxwell succeeded in showing that light was actually an electromagnetic wave.
It is possible that this technology will be explored and improved further with the growing emphasis on energy efficiency. In 1915, he introduced his general theory of relativity, expanding on the special theory of relativity. This theory proved certain relationships between masses, space, and time, significantly influencing the later development of the GPS system, which is now a staple of everyday life.
As mentioned above, eternal inflation is when you have different regions of space formed. On the other hand, string theory brings about the idea of different laws of physics. So as a result, when we combine these two theories we have a multiverse: different regions with different laws of physics. It is crucial that scientists continue to research these theories because the advancements of these theories is what will lead to a conclusion of whether the multiverse exists or
Einstein and Newton are the most popular explanations of gravity to this day. After Einstein, there have been some new theories trying to disprove him. One new popular theory is called emergent gravity and it tries to explain the motions of stars in space. There are many conceptions about gravity that confuse many people. Many people believe space does not have gravity, which is understandable however this is false. Another common misconception is that objects that are farther apart have a strong gravity pull on each other, Newton proved this to be incorrect (“Gravity Misconceptions”). The simple basics of gravity are understood by scientists, but there is still no exact answer that explains just how gravity
At the core of Newtonian physics was the fact that space and time were absolute. Newton’s absolute space was the space of everyday experience with its three dimensions: east-west, north-south, and up-down. This space gives us our sense of length, breadth, and height; according to Newton. We all, regardless of our motion, will agree on the length, breadth, and height of an object, so long as we make sufficiently accurate measurements. Newton’s absolute time was the time that flows inexorably forward as we age. It is a time whose flow is experienced in common by all humanity.
Throughout the ages, outstanding physicists, to the movies, to some of the greatest science fiction novels of all time, have pondered the idea of time-travel. The thought of actually being able to travel to another time or universe has long since enthralled, enveloped, and overwhelmed some of the greatest minds in the history of physics. No one person can actually prove any of their theories, but a few actually make sense. Meaning that they do not violate the laws of physics. One of the main theories suggested, are wormholes. Wormholes are considered to connect two regions of flat space-time, two universes, or two parts of the same universe. There is a lot of theoretical evidence that wormholes exist, with an equal amount of evidence that they do not exist. However, no matter what one’s belief is, the existence of wormholes still makes you wonder…
...ter, as well as the basics of string theory like the strong/weak nuclear forces, electromagnetism and gravity. The end goal of all of your work with Caltech is to strengthen existing knowledge on string theory and prove its accuracy. References for reccomendation are preferred, as is 5 years experience in this field. Good communication, technical, manegerial and writing skills required for this position.
(Gothard and Rosen 1). Gravity is the attraction of a physical body in the universe in relation to all other bodies, and the relation to the inverse square law. The inverse square law is defined as any point spreading infinitely and equally in both directions. Gravity is prevalent in real life when an object is dropped; the body is attracted to the surface it hits...
Einstein, Albert. Relativity: The Special and General Theory. Three Rivers Press, New York, New York. 1961.
Special relativity is a theory that has been accepted by physics as a theory relating to the relationship between space and time. This theory is really important to physics, and all physics teacher such as yourself because special relativity explains the observed fact that the speed of light stays and remains constant regardless of the direction or velocity of its motion. Special relativity now plays an important role in astronomical observation. Special relativity is more precisely about speed. To be even more precisely this speed deals with 299,792,458 ms-1, which is the speed of light, or the rate at which light travels (in meters) per one second.
in space and time that if a vessel goes through such a hole it is transported to another dimension. Well
Einstein’s theory of Special Relativity can be broken into two parts: first, it dictates that the laws of physics are true no matter what reference point you are looking from and secondly the speed of light is constant no matter what reference point you measure it from. This first postulate of Einstein’s theory basically means that the laws of physics do not change depending on the reference point from which they are observed. For example, if you measure how long an object is it will be the same length whether you are flying in an airplane or you are stationary. (http://science.howstuffworks.com/science-vs-myth/everyday-myths/relativity6.htm) The reason why the speed of light is constant is actually quite simple. Picture two cars, traveling in the same direction at the same rate, Car A’s driver has a slingshot while Car B’s driver has a laser pointer. At the exact same instant both fire in the direction of travel. If you were to measure the speed of the projectile that wa...