so basically the no-cloning rule does not apply to individual particles?Orodruin said:You have misunderstood the no-cloning theorem. It states that you cannot create an identical copy of a quantum state. Electrons are indistinguishable.
I think what you have misunderstood is the meaning of "quantum state" and "create a copy".Lunct said:so basically the no-cloning rule does not apply to individual particles?
can you please elaborate?Orodruin said:I think what you have misunderstood is the meaning of "quantum state" and "create a copy".
It is a theorem about the interaction between identical quantum systems. It says that there is no process by which you can start with an arbitrary state and end up with both systems in that state.Lunct said:can you please elaborate?
so it basically says when you teleport an object, the original is forced to change.Orodruin said:It is a theorem about the interaction between identical quantum systems. It says that there is no process by which you can start with an arbitrary state and end up with both systems in that state.
To explain that would require going quite far beyond B-level.Lunct said:Why is that though?
Lunct said:so it basically says when you teleport an object, the original is forced to change.
That's one of the consequences of the no-cloning theorem, but that theorem is much more general and applies to many situations other than quantum teleportation. (Also, you should be aware that quantum teleportation is something very different than the popular understanding of the word - there's no "something dematerializes here and rematerializes there" stuff going on).Lunct said:so it basically says when you teleport an object, the original is forced to change.
There's a proof of the no-cloning theorem here: https://en.wikipedia.org/wiki/No-cloning_theorem#Theorem_and_proof. That may not be much help in a B-level thread, but there's no easier answer; until somewhere after your second year of a college physics program you'll just have to take people's word for it that has to be that way.Why is that though?
Orodruin said:To explain that would require going quite far beyond B-level.
Particles are small units of matter that make up everything in the universe. They can be atoms, molecules, or subatomic particles such as protons, neutrons, and electrons.
Particles can differ in size, shape, mass, and other physical properties. For example, atoms of different elements have different numbers of protons, which determine their chemical properties.
Particles and waves are two different ways to describe the behavior of matter and energy. Particles are localized units of matter that have mass and occupy space, while waves are disturbances that transfer energy through a medium.
Particles can interact with each other through forces such as gravity, electromagnetism, and the strong and weak nuclear forces. These interactions determine how particles behave and can lead to the formation of larger structures like atoms and molecules.
Particles play a crucial role in many aspects of our daily lives, from the air we breathe (which is made up of particles like oxygen and carbon dioxide) to the technology we use (which relies on the behavior of particles at the microscopic level). Understanding particles is essential for fields such as medicine, engineering, and materials science.