Heisenbergs thought experiment

In summary, Heisenbergs "thought experiment" using a microscope to determine the position of an electron is a flawed analogy that does not support the uncertainty principle.
  • #1
mycotheology
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Heisenbergs "thought experiment"

In two different quantum mechanics books I read about "thought experiments" involving using a microscope to determine the position of an electron, which were both presented as evidence to back up Heisenbergs uncertainty principle. Are there no real experiments that can be done to test the theory? In these thought experiments, microscopes are used to detect the positions of electrons (i.e. adding a light source and a microscope to the double slit apparatus in order to determine which slit the electron comes through) and the problem is that when a photon bounces off the electron, it changes its momentum so while you've now learned the position of the electron, you no longer know its momentum etc. Don't moving charged particles produce electromagnetic fields and thus, radiate energy that could be detected? Or is that only in magnetic fields?
 
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The problem with Heisenbergs "thought experiment", and which he used to illustrate his uncertainty principle, is that still too many physicists (not to say about philosophers and others) believe the microscope analogy to be the correct way to explain it. It was Heisenberg's mistake. The complementarity between position and momentum is intrinsic, inherent in the quantum objects, and does not arise due to an interaction of an 'observer' with the object we observe. A misleading analogy that was justifiable at the times of Heisenberg, but it is plain wrong to presented it "as evidence to back up Heisenbergs uncertainty principle" in 2012.
 
  • #4


I thought I remembered reading somewhere that Heisenberg himself, later in his career, disavowed the "Heisenberg microscope" as an illustration of the uncertainty principle. However, I haven't been able to find a reference or quotation. Has anyone else seen something like this?
 

1. What is Heisenberg's thought experiment?

Heisenberg's thought experiment, also known as the uncertainty principle, is a concept in quantum mechanics proposed by German physicist Werner Heisenberg. It suggests that it is impossible to precisely measure both the position and momentum of a subatomic particle at the same time. This is due to the fundamental limitations of measurement in quantum mechanics.

2. How does Heisenberg's thought experiment challenge traditional physics?

Heisenberg's thought experiment challenges traditional physics by introducing the concept of uncertainty at the subatomic level. In classical physics, it was believed that the position and momentum of a particle could be measured with absolute precision. However, Heisenberg's experiment suggests that there is a limit to the precision of measurement in the quantum world.

3. What are the implications of Heisenberg's thought experiment?

The implications of Heisenberg's thought experiment are significant in the field of quantum mechanics. It suggests that the act of measurement itself can affect the observed properties of a subatomic particle. This phenomenon is known as the observer effect and has been demonstrated in various experiments.

4. Can Heisenberg's thought experiment be proven?

Heisenberg's thought experiment is a fundamental principle in quantum mechanics and has been supported by numerous experiments and observations. However, due to the nature of quantum mechanics, it cannot be definitively proven. It is a concept that helps us understand the behavior of subatomic particles and make predictions about their properties.

5. How does Heisenberg's thought experiment relate to the uncertainty principle?

Heisenberg's thought experiment is often used to explain the uncertainty principle. The thought experiment involves measuring the position and momentum of a particle, which are two properties that cannot be known simultaneously with absolute precision, according to the uncertainty principle. This experiment helps us understand the limitations of measurement in quantum mechanics and the importance of the observer in the process.

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