Space-time continuity as an assumption in quantum theory

In summary, there is a perceived conflict between relativity and quantum theory, but this does not necessarily mean that one theory is redundant. Rather, there may be a need for a more complete theory that can reconcile the two. Additionally, there are ongoing efforts to understand gravity at extreme scales, and it is possible that both relativity and quantum theory may eventually be replaced by a broader theory.
  • #1
vivekfw66
8
0
There is an apparent conflict between relativity and quantum theory, in which case quantum theory must be redundant isn't it as it explicitly makes the assumption that spacetime is continuous whereas relativity in-fact derives the notion that spacetime is continuous from an experimentally observed aspect of constancy of speed of light. When a theory borrows the result of another theory as its foundation and then comes into conflict with the very theory from which it borrowed the idea,then doesn't logic tell that the lending theory is not complete or it's only partially correct and the borrowing theory is redundant. Its purely logical isn't it?
 
Last edited:
Physics news on Phys.org
  • #3
vivekfw66 said:
There is an apparent conflict between relativity and quantum theory, in which case quantum theory must be redundant isn't it as it explicitly makes the assumption that spacetime is continuous whereas relativity in-fact derives the notion that spacetime is continuous from an experimentally observed aspect of constancy of speed of light. When a theory borrows the result of another theory as its foundation and then comes into conflict with the very theory from which it borrowed the idea,then doesn't logic tell that the lending theory is not complete or it's only partially correct and the borrowing theory is redundant. Its purely logical isn't it?

i like the term.
partially correct.

.
 
  • #4
That's a good question. If spacetime is not continuous then mass and energy cannot be discreet.
 
  • #5
Are we talking Loop Quantum Gravity? This is next on my list of important things to learn about before I die. Does anyone know of any decent sources?
 
  • #7
vivekfw66 said:
That's a good question. If spacetime is not continuous then mass and energy cannot be discreet.
Why? What does spacetime being continuous have to do with the apparent fact that mass is discretized?
 
  • #8
1st. There is no obvious conflict between relativity and quantum mechanics. There is an incomplete understanding of how to properly quantize general relativity, but that's not the same thing as saying there is conflict between them. For instance, Quantum Field Theory is both relativistic and quantized without any obvious conflicts.

2nd. Even if there is a conflict between them, your logic doesn't seem to hold water. Quantum mechanics tenets go far beyond the assumption of continuous space time. The core of QM is the replacement of the dynamical variables with operators in some linear space (which space exactly depends on the details of the theory). You can't milk that out of relativity. there is no meaningful way in which relativity makes QM redundant
 
  • #9
vivekfw66 said:
There is an apparent conflict between relativity and quantum theory

There is no conflict:
http://arxiv.org/pdf/1209.3511v1.pdf
'Effective ï¬eld theory shows that general relativity and quantum mechanics work together perfectly normally over a range of scales and curvatures, including those relevant for the world that we see around us. However, effective ï¬eld theories are only valid over some range of scales. General relativity certainly does have problematic issues at extreme scales. There are important problems which the effective ï¬eld theory does not solve because they are beyond its range of validity. However, this means that the issue of quantum gravity is not what we thought it to be. Rather than a fundamental incompatibility of quantum mechanics and gravity, we are in the more familiar situation of needing a more complete theory beyond the range of their combined applicability. The usual marriage of general relativity and quantum mechanics is ï¬ne at ordinary energies, but we now seek to uncover the modiï¬cations that must be present in more extreme conditions. This is the modern view of the problem of quantum gravity, and it represents progress over the outdated view of the past.'

Also be aware that all our theories, not just gravity, are thought to break down at the Plank scale - renormalizable or not.

Thanks
Bill
 
  • #10
What if spacetime were in different structures connected through matter?
 
  • #11
imo both theories are partial correct
maybe both replaced by a broader theory.
 

Related to Space-time continuity as an assumption in quantum theory

1. What is space-time continuity?

Space-time continuity is the concept that space and time are interconnected and cannot be separated. It is the foundation of Einstein's theory of general relativity and is essential in understanding the behavior of objects in the universe.

2. How is space-time continuity related to quantum theory?

In quantum theory, space-time continuity is assumed in order to make predictions and calculations about the behavior of subatomic particles. It allows for the concept of particles being in multiple places at once and for the unpredictable nature of quantum events.

3. Is space-time continuity a proven fact?

While space-time continuity is widely accepted and used in many scientific theories, it is still a subject of ongoing research and debate. Some scientists believe that it may not hold true at the smallest scales, such as in the realm of quantum mechanics.

4. Can space-time continuity be observed or measured?

Space-time continuity is a theoretical concept and cannot be directly observed or measured. However, its effects can be observed through experiments and observations in the fields of cosmology and quantum mechanics.

5. Are there any alternate theories to space-time continuity?

There are some alternative theories to space-time continuity, such as loop quantum gravity and causal set theory. These theories propose different ways of understanding the relationship between space and time, but they are still being studied and have not been widely accepted in the scientific community.

Similar threads

I Commutation relations for an interacting scalar field
    • Quantum Physics
Replies
3
Views
872
A Is the quantum mechanics explanation for the propagation of light adequate enough to be understood?
    • Quantum Physics
Replies
6
Views
567
I Uncertainty Principle in QFT & Early Universe Conditions
    • Quantum Physics
Replies
1
Views
836
A Quantum superposition: Is a problem of space-time worldview?
    • Quantum Physics
Replies
1
Views
632
I QED/Quantum Mechanics: Probability or Spatial Function?
    • Quantum Physics
Replies
8
Views
1K
B Can particles appear from "actual" nothing including no space?
    • Quantum Physics
Replies
28
Views
3K
A Measurement in QFT: Mapping Fields to Theory's Math Formalism
    • Quantum Physics
Replies
31
Views
2K
B Questions on QFT & QM: Is QM or QFT Absolute Time?
    • Quantum Physics
2
Replies
69
Views
4K
A Quantum Field theory vs. many-body Quantum Mechanics
    • Quantum Physics
2
Replies
36
Views
3K
B QFT & QM Questions (about time, locality, gravity, etc.)
    • Quantum Physics
Replies
6
Views
1K

Hot Threads

Recent Insights

Back
Top