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Exactly what it says. The precise location of an electron cannot be ascertained. The best that can be done is to calculate probabilities that it is found within various locations.
No; if it is certain not to occur the probability is 0.
It is the probability of an event which is certain to happen.
If a number has a probability of 1 it means it is certain to occur.
the probability is you'd get a green marble any other color is impossible. So, the probability is certain
Exactly what it says. The precise location of an electron cannot be ascertained. The best that can be done is to calculate probabilities that it is found within various locations.
It is usually a physicist.
Electrons can not be located in one specific place, but are sort of "spread" over their orbit. When doing an experiment to find their location, there is a certain probability of finding it within a certain unit of volume. The word "cloud" is supposed to conjure an image of this behavior of the electron.
Electrons can not be located in one specific place, but are sort of "spread" over their orbit. When doing an experiment to find their location, there is a certain probability of finding it within a certain unit of volume. The word "cloud" is supposed to conjure an image of this behavior of the electron.
Electrons can not be located in one specific place, but are sort of "spread" over their orbit. When doing an experiment to find their location, there is a certain probability of finding it within a certain unit of volume. The word "cloud" is supposed to conjure an image of this behavior of the electron.
Electrons orbit the nucleus of an atom. The exact location of a specific electron, however, can not be known for certain. The general area where the electron might be found is in its orbital.
Around the atomic nucleus, on electron shells.
The probability of something that is certain is 100% The probability of something that is completely impossible is 0%
Unlike the planetary model's description of an atomic electron's position, the electron cloud model takes into account the quantum mechanical result known as the Heisenberg uncertainty principle. Heisenberg's uncertainty principle basically tells us that the more certain we are of a particle's position, the less certain we are of its momentum and its kinetic energy. This means that we can't say that an electron is at this exact spot while also saying that it's orbiting the nucleus with thisexact momentum, telling us that the planetary model of an atom is incorrect.We can say that an electron has a certain probability to occupy a certain quantum state with a certain energy though. This is where the electron cloud comes in. The electron cloud is simply a model describing the spherical probability distribution of an electron's position around an atomic nucleus. The reason we use the word cloud in the model is to emphasize the fact that the electron's position is a probability function and therefore all spread out and fluffy, like a cloud.
Electrons can not be located in one specific place, but are sort of "spread" over their orbit. When doing an experiment to find their location, there is a certain probability of finding it within a certain unit of volume. The word "cloud" is supposed to conjure an image of this behavior of the electron.
If something is certain, then the probability of that something is 1.
The electron itself isn't a wave, it's the probability of finding it in a certain spot that's governed by a wave equation.