What Should the Last Page of My QG Paper Cover?

In summary, as you continue to write your research paper on quantum gravity and its applications to black holes, it would be best to transition into discussing gauge fields and Yang-Mills theory for your last page. Introducing tetrads and AMD formulation at this stage may be too complex for your paper, and instead, you can explain how these theories relate to general relativity and quantum field theory and their relevance to your topic.
  • #1
romsofia
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I'm currently writing a research paper on QG and its applications to black holes. Before I start on QG, i feel as though I should provide an intro to GR and QFT but I also shouldn't devote too many pages to them. So, where I'm at right now: I've discussed diffeomorphish invarance, discussed and derived the Riemann curvature tensor, and derived and discussed EFE. I don't know whether or not for my last page should be on tetrads, AMD formulation or simply start talking about gauge fields and Yang-Mills theory.

Any help is much appreciated!
 
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  • #2
I think that the best option for your last page would be to transition into talking about gauge fields and Yang-Mills theory. Tetrads and AMD formulation are important concepts, but introducing them at this stage could be a bit too difficult for your paper. Instead, you can explain how gauge fields and Yang-Mills theory lead to a more complete description of GR and QFT, and how these theories can be applied to black holes. This will serve as an effective bridge from the topics you have already discussed and the topic of quantum gravity.
 

FAQ: What Should the Last Page of My QG Paper Cover?

What is quantum gravity (QG)?

Quantum gravity is a field of physics that aims to unify the theories of general relativity and quantum mechanics. It seeks to explain the behavior of gravity at the smallest scales of the universe, such as the Planck length, where classical physics breaks down.

Why is QG considered important for scientific research?

QG is important because it could potentially provide a deeper understanding of the fundamental laws of the universe. It could also help us reconcile the discrepancies between general relativity and quantum mechanics, and unlock new insights into the nature of space and time.

What are the current theories and models of QG?

There are several theories and models that attempt to explain QG, such as loop quantum gravity, string theory, and causal dynamical triangulation. However, there is currently no consensus on which theory is correct, and more research is needed to validate any of these models.

What are the challenges in studying QG?

One of the main challenges in studying QG is the lack of experimental evidence. Since the energies required to observe quantum gravity effects are extremely high, it is difficult to conduct experiments that could confirm or refute current theories. Additionally, the mathematical complexity of the subject makes it challenging to develop a comprehensive theory.

How can advancements in QG impact other fields of science?

Advancements in QG could have a significant impact on other fields of science, such as cosmology, astrophysics, and particle physics. It could also have practical applications in technology, such as the development of new materials and energy sources. Furthermore, a better understanding of QG could lead to breakthroughs in our understanding of the origins and evolution of the universe.

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