How to use in-sentence of “uncertainty principle”:
+ However, it is now clear that the uncertainty principle is a property of all wave-like systems.
+ So the uncertainty principle can explain some kinds of interference produced by investigators that influence the results of an experiment or an observation.
+ The Uncertainty principle is also called the Heisenberg uncertainty principle.
+ The quantum uncertainty principle says that particles, fields, etc.
+ The idea that the Uncertainty Principle is caused by disturbance is not considered to be valid by some, although it was discussed in the early years of quantum mechanics, and is often repeated in popular treatments.
+ However, the uncertainty principle is a fact about nature, and it shows up in other ways of talking about quantum physics such as the equations made by Erwin Schrödinger.
Example sentences of “uncertainty principle”:
+ The Heisenberg Uncertainty Principle has greatly influenced arguments about free will.
+ Historically, the uncertainty principle has been confused with a somewhat similar effect in physics, called the observer effect.
+ Heisenberg’s uncertainty principle tells us we can never know the momentum of a particle exactly, or even the total momentum of both particles put together.
+ Heisenberg’s uncertainty principle is one of the most important results of twentieth century physics.
+ Thus, the uncertainty principle deals with “measurement”, and not “observation”.
+ When humans measure some process on the subatomic scale and the uncertainty principle manifests itself, then human action can be said to have influenced the thing that was being measured.
+ The uncertainty principle disproved the idea of a theory that was deterministic, or something that would predict everything in the future.
+ The initial discussions of Heisenberg’s uncertainty principle depended on a model that did not consider that particles of matter such as electrons, protons, etc.
+ The uncertainty principle says that the speed and the position of a particle cannot be found at the same time.
+ The uncertainty principle means a person cannot know an electron’s position and energy level at the same time.
+ In February 1927, while Bohr was on extended skiing holidays, he invented the uncertainty principle and published the paper “Über den anschaulichen Inhalt der quantentheoretischen Kinematik und Mechanik”—“On the Visualizable Contents of the Quantum-theoretical Kinematics and Mechanics”.
+ The Heisenberg Uncertainty Principle has greatly influenced arguments about free will.
+ Historically, the uncertainty principle has been confused with a somewhat similar effect in physics, called the observer effect.
+ Heisenberg's uncertainty principle tells us we can never know the momentum of a particle exactly, or even the total momentum of both particles put together.
+ The uncertainty principle came from Werner Heisenberg’s matrix mechanics.
+ The reason behind Heisenberg’s uncertainty principle says that we can never know both the location and the momentum of a particle.
+ Heisenberg’s uncertainty principle was found in the earliest equations of the “new” quantum physics, and the theory was given by using matrix math.
+ The uncertainty principle actually describes how precisely we may measure the position and momentum of a particle at the same time – if we increase the precision in measuring one quantity, we are forced to lose precision in measuring the other.
+ Therefore, there must be tiny fluctuations in ’empty’ space, so that the uncertainty principle isn’t violated.
+ Thus, “the uncertainty principle actually states a fundamental property of quantum systems, and is not a statement about the observational success of current technology”.
+ The Heisenberg uncertainty principle is also frequently, confused with the “observer effect”.
+ Among the scientists who worked with Niels Bohr in Copenhagen, the uncertainty principle was taken to mean that on an elementary level the physical universe does not exist in a deterministic form.
+ If both the position and momentum of a particle is being measured, the uncertainty principle states that there is a trade-off between the accuracy with which the momentum is measured and the accuracy with which the position is measured.