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Heisenberg's Principle of Uncertainty may defy our intuition as we see no obvious reason why we can not exactly measure the momentary position and speed of an object like a racing car. If any difficulty exists to determine both exactly, we may attribute this difficulty to our own inability to measure both exactly. An example may be the Hubble Constant H0, which relates the recession speed v of cosmic objects, such as galaxies, to their distance x from us by Hubble's Law v=H0*x. In this case, the speed of v can be easily determined fairly exactly, but not of x. Heisenberg's Principle states that such inability is a fundamental law of Physics, not of our own inability to measure.Although this law may not very well concur with our intuition, it is possible to illustrate and even simulate it with a simple geometrical model. This paper presents such a model and explains its geometrical, dynamic and mathematical properties as those stated by Heisenberg's Principle of Uncertainty. It also shows that its physical reality is observable in some every day processes.It is the sole purpose of this model to illustrate Heisenberg's Principle of Uncertainty. It should enhance the understanding of this principle.
Hans Werner Arnold (Mon,) studied this question.