Why can people learn about QED and QCD and not about: QGD

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In summary, the conversation discusses the difficulties and lack of progress in developing a quantum theory of gravity, specifically the QGD (Quantum Gravitodynamics). This is due to the complex mathematical and physical challenges involved, and the need to develop new branches of mathematics. The two main competing theories for this are string theory and loop quantum gravity, with string theory being the more ambitious and encompassing theory.
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Why can people learn about QED and QCD and not about:QGD(i.e.Quantum gravitodynamics)?What are then the difficulties (both physically and mathematically speaking)that prevented theoretical physicists to develop such a theory??
 
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We currently lack the theory you describe, which is called 'the quantum theory of gravity" (or, if you wanted to name it in the form QxD, it would be QGD, quantum geometrodynamics).

Myriad problems face researchers in this field. Entirely new branches of mathematics and have been discovered in its pursuit, and many of them are still in their infancy. Developing a quantum theory of gravity is to present-day physics as building a sky-scraper is to cavemen. Quite a lot of "infrastructure" has to be developed before the skyscraper itself can be built.

- Warren
 
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So it's the math that gives us trouble.
Should i understand that "superstring theories"were developed to dealing with coupling GR and"normal"quantul field theory??
 
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Yes, the math itself is what gives us problems. We have a rough idea of how a quantum theory of gravity should look. We currently are nowhere even close to being able to design experiments able to operate at the requisite level of precision, so there is currently no experimental evidence -- it's all pure theory.

The two biggest competing theories are string theory and loop quantum gravity. Of the two, string theory is the most ambitious, since it is not only a theory of gravity, but a theory of all four fundamental interactions (five if you include the Higgs mechanism).

Loop quantum gravity, on the other hand, is purely a quantization of GR, and many people see it as sort of a contrivance.

You decide. :)

- Warren
 

1. Why is QED and QCD more commonly taught than QGD?

QED (Quantum Electrodynamics) and QCD (Quantum Chromodynamics) are well-established theories that have been extensively studied and tested by scientists. They have also been successfully used to explain various phenomena in the natural world. On the other hand, QGD (Quantum Gravitodynamics) is a relatively new theory that is still being developed and tested. Therefore, it is not as widely accepted or understood as QED and QCD.

2. What is the main difference between QED and QGD?

QED and QGD are both theories that attempt to explain the fundamental forces of nature. However, QED focuses on the electromagnetic force, while QGD focuses on the gravitational force. The main difference between the two is that QGD attempts to unify the theory of gravity with the other fundamental forces, while QED does not.

3. Is QGD a valid scientific theory?

As with any scientific theory, the validity of QGD is still being evaluated and tested by scientists. While it has not yet been fully accepted by the scientific community, it has shown promising results in explaining some phenomena, such as the behavior of black holes.

4. Can QGD and QED be used together?

Currently, QED and QGD are two separate theories that have not yet been successfully unified. However, some scientists are working on theories that attempt to combine the two and create a more complete understanding of the fundamental forces of nature.

5. Why is it important to learn about QGD?

While QGD may not be as widely known or accepted as QED and QCD, it is still an important theory that has the potential to greatly advance our understanding of the universe. By learning about QGD, we can continue to explore and test new ideas and potentially uncover new insights into the fundamental forces that govern our world.

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