humanino said:Why do you say it's difficult ? What do you mean is difficult ?
We probe distances (say of the order of) [itex]10^{-20}[/itex] m and we find out there is no substructure to the electron. We conclude that if the electron has a structure, then the size of the structure is less that those scales.
In particular, it is generally admitted that the electron is pointlike, so we would forever only be able to provide such upper bounds. In this interpretation, there would be nothing especially difficult, apart from "reaching infinity". Yes, reaching infinity is difficult...
Direct string detection is certainly not what string experimentalists would be shooting at right now. String theorists try to come up with other kinds of predictions, any kind of deviations from standard model predictions would do the job actually.pentazoid said:If we already probed the electron and concluded so far the electron has no substructure , shouldn't this debunk string theory? If we haven't found any substructure within the electron, then how would physicists proved that electrons are made of strings?
humanino said:Direct string detection is certainly not what string experimentalists would be shooting at right now. String theorists try to come up with other kinds of predictions, any kind of deviations from standard model predictions would do the job actually.
It makes me very sad that you imagine this is the purpose of the LHC. At some point, we failed deeply in communication. The purpose of the LHC is to understand electroweak symmetry breaking. That is why it was built in the first place and what people should keep in mind as the most important priority. Anything beyond that is speculation, which can only depend on one's personal taste.pentazoid said:Isn't the purpose of the LHC to show whether or not the energies of certain elementary particles are supposed to matched the supposed energies of these so called strings?
humanino said:It makes me very sad that you imagine this is the purpose of the LHC. At some point, we failed deeply in communication. The purpose of the LHC is to understand electroweak symmetry breaking. That is why it was built in the first place and what people should keep in mind as the most important priority. Anything beyond that is speculation, which can only depend on one's personal taste.
The intrinsic structure of an electron refers to its fundamental properties and characteristics, such as its mass, charge, and spin. These properties are not affected by external factors and are considered to be inherent to the electron itself.
The extrinsic structure of an electron refers to its behavior and properties when it is in a specific environment or interacts with other particles. The intrinsic structure, on the other hand, remains the same regardless of its surroundings.
No, the intrinsic structure of an electron cannot be directly observed since it is on a subatomic level. However, scientists have developed models and theories based on experimental evidence to understand and describe its intrinsic structure.
Scientists have used various experiments and observations, such as the behavior of electrons in electric and magnetic fields, to gather evidence and make conclusions about the intrinsic structure of electrons. Theoretical models, such as the Standard Model of particle physics, also help in understanding the intrinsic structure of electrons.
No, the intrinsic structure of an electron is considered to be constant and unchanging. However, its extrinsic structure can be altered by external factors, such as interactions with other particles or exposure to high-energy environments.