This is a well known though experiment, which Richard Feynman used to emphasize

In the above experiment:

The solution to this problem is length contraction: the positive charges are length contracted and the moving electrons aren't, and therefore they are denser and therefore there is an effective charge from that frame.

This is also mentioned at David Tong www.damtp.cam.ac.uk/user/tong/em/el4.pdf (archive) "David Tong: Lectures on Electromagnetism - 5. Electromagnetism and Relativity" "5.2.1 Magnetism and Relativity".

See also: cirosantilli.com/china-dictatorship/epoch-times

A 4D gradient with some small special relativity specifics added in (the light of speed and sign change for the time).

This form is not really an inner product in the common modern definition, because it is not positive definite, only a symmetric bilinear form.

The matrix representation of the symmetric bilinear form that is the Minkowski inner product.

Since that is a symmetric bilinear form, the associated matrix is a symmetric matrix.

By default, we will use the time negative representation unless stated otherwise:but another equivalent one is to use a time positive representation:The matrix is typically denoted by the Greek letter eta.

The opposite of spacelike-separated events.

Subtle is the Lord by Abraham Pais (1982) page 22 mentions that when Einstein saw this in 1915, he was so excited he couldn't work for three days.

Related to what does it mean that photons are force carriers for electromagnetism?.

As of 2019, the more formal name for particle physics, which is notably missing general relativity to achieve the theory of everything.

cds.cern.ch/record/799984/files/0401010.pdf The Making of the Standard Model by Steven Weinberg mentions three crucial elements that made up the standard model post earlier less generalized quantum electrodynamics understandings

As of 2019, the Standard Model and general relativity are incompatible. Once those are unified, we will have one equation to describe the entirety of physics.

There are also however also unsolved problems in electroweak interaction + strong interaction, which if achieved is referred to as a Grand Unified Theory. Reaching a GUT is considered a sensible intermediate step before TOE.

The current state of Physics has been the result of several previous unifications as shown at: en.wikipedia.org/wiki/Theory_of_everything#Conventional_sequence_of_theories so it is expected that this last missing unification is likely to happen one day, potentially conditional on humanity having enough energy to observe new phenomena.

German materials scientists are professionals and researchers who specialize in the study, development, and application of materials. Their work encompasses various fields such as metallurgy, polymers, ceramics, nanomaterials, and composites. In Germany, materials science is a prominent and well-established discipline, supported by a strong network of universities, research institutions, and industries. Germany is known for its robust engineering and manufacturing sectors, particularly in automotive, aerospace, electronics, and manufacturing, making materials science a critical area of research and development.

electroweak interaction + strong interaction.

Appears to be an unsolved physics problem. TODO why? Don't they all fit into the Standard Model already? So why is strong force less unified with electroweak, than electromagnetic + weak is unified in electroweak?

TODO arguments, proofs

The opposite of quasiparticle, see notaby: quasiparticles vs elementary particles.