How to use in-sentence of “uncertainty”:
+ In the following diagrams we will show the main features of uncertainty in concrete terms, in the world of real things.
+ The uncertainty principle came from Werner Heisenberg’s matrix mechanics.
+ The death of King Baudouin in 1993 caused a short period of uncertainty about the succession.
+ However, not all observer effects are due to quantum effects or the uncertainty principle.
+ 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 uncertainty principle disproved the idea of a theory that was deterministic, or something that would predict everything in the future.
+ Historically, the uncertainty principle has been confused with a somewhat similar effect in physics, called the observer effect.
+ This effect occurs because of a side effect of the quantum uncertainty principle, where ‘virtual’ particles cause the plates to be slightly pushed towards each other.
Example sentences of “uncertainty”:
+ The quantum uncertainty principle says that particles, fields, etc.
+ If this were not true, the Conservation law for momentum would be violated due to the quantum uncertainty of the momentum of each particle.
+ That is, he thought that there is no “uncertainty” in nature, and that the uncertainty exists only in our knowledge about it.
+ The value of the assets were very sensitive to economic conditions, and increased uncertainty in these conditions made it difficult to estimate the value of the assets.
+ However, to make the uncertainty needs to be four times bigger.
+ One of the early successes of this theory was announced shortly thereafter and is now called the Heisenberg’s Uncertainty Principle.
+ The Planck time is the length of time at which no smaller meaningful length can be validly measured due to the indeterminacy expressed in Werner Heisenberg’s uncertainty principle.
+ 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.
+ Arguing backwards from the Uncertainty Principle, it looks as though there is in fact no definite position and no definite momentum for any atomic scale thing, and that experimenters can only force things into definiteness within the limit stated by the Uncertainty Principle.
+ However, this is where the near consensus on human settlement history ends, and considerable uncertainty clouds any more detailed aspect of human colonization history”.
+ This law also gives rise to an uncertainty between energy and time, which can be expressed in the same way as the relation between momentum and position.
+ Entropy quantifies the amount of uncertainty involved in the value of a random variable or the outcome of a random process.
+ The problem is that in making the first one take on a pretty definite form we increase the uncertainty involved in the next measurement.
+ The Uncertainty principle is also called the Heisenberg uncertainty principle.
+ It took a couple of years, but Heisenberg was able to prove the Uncertainty Principle, which says that Δx × Δp = h/2, which is the number that comes out of the original equations but leaves out the π and the i that have to do with phase changes.
+ To make the uncertainty one-tenth as big, the sample size needs to be one hundred times bigger.
+ The relative uncertainty in these measurements is 0.02 parts per billion, as equivalent to the uncertainty in Earth-based measurements of length by interferometry.
+ In 1925, Werner Heisenberg described the Uncertainty principle, which says that the more we know about where a particle is, the less we can know about how fast it is going and in which direction.
+ By the uncertainty principle, any quantum particle’s exact location and momentum cannot be determined with certainty, however.
+ Please userfy Talk:Heisenberg’s uncertainty principle/Uncertainty sandbox to the userspace of the user who has been working on it.
+ The quantum uncertainty principle says that particles, fields, etc.
+ If this were not true, the Conservation law for momentum would be violated due to the quantum uncertainty of the momentum of each particle.
More in-sentence examples of “uncertainty”:
+ However, it is now clear that the uncertainty principle is a property of all wave-like systems.
+ Thus, “the uncertainty principle actually states a fundamental property of quantum systems, and is not a statement about the observational success of current technology”.
+ Therefore, there must be tiny fluctuations in ’empty’ space, so that the uncertainty principle isn’t violated.
+ More clearly stated, information is an increase in uncertainty or entropy.
+ Because of this uncertainty and other factors, you cannot use classical mechanics to predict the motion of quantum particles.
+ When done correctly, the uncertainty could influence the result, especially when precision is larger.
+ Given the ~10° uncertainty in the actual rotational axis of Camilla, the orbit’s inclination probably is less than 10°.
+ However, the Hutt River Province argues that it is an independent entity within the Australian legal system and the Commonwealth has no right to dispute the claimed de facto legality it was given in error by the Governor General’s office, To overturn this de facto recognition, the West Australian Governor General’s office would have to submit the secession to arbitration, something which the Hutt River Province claims is not done due to legal uncertainty related to the fact that Western Australia in its entirety was never officially proclaimed as British Territory.
+ 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.
+ Knowing the uncertainty in the mean, one can know how close the sample average is to the average that would come from measuring the whole group.
+ Val specializes in numeric “values”, especially those with scientific notations, uncertainty notations, and those with measurement “values” with physical units.
+ These dimensionless units are not part of for technical reasons related to the markup for uncertainty notations.
+ 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.
+ The uncertainty principle shows that there is always a limit to how small we can make certain pairs of measurements such as position and speed or trajectory and momentum.
+ Heisenberg’s uncertainty principle was found in the earliest equations of the “new” quantum physics, and the theory was given by using matrix math.
+ Also, the relative uncertainty is the uncertainty in the mean divided by the mean, times 100%.
+ 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.
+ Canadian government politicians made appearances coordinated by Minister of Justice Minister of Justice Jean Chrétien and Marc Lalonde, mainly speculating on the economic uncertainty a “Yes” vote could bring.
+ The reason behind Heisenberg’s uncertainty principle says that we can never know both the location and the momentum of a particle.
+ The Heisenberg uncertainty principle is also frequently, confused with the “observer effect”.
+ This is due to Heisenberg’s uncertainty principle, which states that the more that is known about a particle’s position, the less that can be known about its momentum, and vice versa.
+ In fact, people who need to know average values often decide how small the uncertainty should be—before they decide to use the information.
+ Heisenberg’s uncertainty principle is one of the most important results of twentieth century physics.
+ Another interesting uncertainty phenomenon, which makes possible many electronic devices, is called quantum tunneling.
+ Later, people got in the habit of calling it “Heisenberg’s uncertainty principle” which made many people make the mistake of thinking that electrons and things like that are really “somewhere” but we are just uncertain about it in our own minds.
+ The uncertainty in the mean can be used to know how close the average of the samples are to the average that would come from measuring the whole group.
+ This is ruled out to at least 1-sigma uncertainty by radial velocity measurements of the system, suggesting Kepler-22b does not have Earth-like composition.
+ Another pair of physical quantities goes according to the uncertainty relationship: ΔE × Δt ≥ h, and that pair indicates, among other things, that if we look in interstellar space, some place where we would not expect to find anything at all, and we reduce Δt closer and closer to 0, then to keep the balance shown in the equation ΔE has to get larger and larger — and suddenly something with momentum can pop into existence just for that brief period of time.
+ ISO 4217 codes are used on airline tickets and international train tickets to remove any uncertainty about the price.
+ Its rotation is actually fast for an asteroid and prograde, with the north pole pointing in the direction of right ascension 20 h 32 min, declination +48° with an uncertainty of about 10°.
+ Thus, the uncertainty principle deals with “measurement”, and not “observation”.
+ Balakrishnan, Lecture 1 – Introduction to Quantum Physics; Heisenberg’s uncertainty principle, National Programme of Technology Enhanced Learning “Measurement” does not mean just a process in which a physicist-observer takes part, but rather.
+ Some things that people do cause changes on the very small level of atoms and are cases of uncertainty or indeterminacy as first described by Heisenberg.
+ If there is some uncertainty about its accuracy, most editors are willing to wait about a month to see whether a citation can be provided.
+ In 1927 Werner Heisenberg published the uncertainty principle.
+ The partition caused a lot of uncertainty in many parts of the new nations; especially in the region of Jammu and Kashmir.
+ Here we will show the first equation that gave the basic idea later shown in Heisenberg’s uncertainty principle.
+ Another fundamental of quantum mechanics is the Heisenberg uncertainty principle.
+ 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.
+ The uncertainty in the mean is estimated as the standard deviation for the sample, divided by the square root of the number of samples minus one.
+ 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 “average ambiguity” or Hy meaning uncertainty or entropy.
+ 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.
+ Template for creating two smaller lines of text on one actual line, this can be used for scientific notations of uncertainty and physics symbols, such as nuclides and particles.
+ Because the uncertainty principle tells us that certain measurements at the atomic level cannot be made without disturbing other measurements, some individuals use this idea to describe instances in the human world where the activity of an observer changes the thing that is being watched.
+ However, it is now clear that the uncertainty principle is a property of all wave-like systems.
+ Thus, "the uncertainty principle actually states a fundamental property of quantum systems, and is not a statement about the observational success of current technology".