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The electron cloud is often represented with a fuzzy outline because electrons can be found in different locations within the space around the atom at any given moment. What we mean is that though each electron has a fixed energy level in which it "lives" in the cloud, it is not confined to a fixed physical location or position. Electrons are always in motion, and they can be found a little closer to an atomic nucleus one moment, and a little farther away in the next moment. Use the link below to a related question to learn a little more.
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What is the fuzzy part of an atom called?
I suppose on some atom models the electron cloud would be called "fuzzy".
Why is the atomic size considered to have no definite boundary?
Atomic size is defined as the distance between the nucleus and the outermost electron in an atom. Since electrons occupy regions of space called orbitals, which have fuzzy boundaries, it is difficult to pinpoint an exact boundary of an atom. Additionally, the electron cloud distribution is not uniform, making the atomic size less precise.
The understanding that the position of an electron in an electron cloud cannot precisely be determined was developed by Werner Heisenberg and is known as the?
"Uncertainty Principle". He didn't say that the position can't be precisely determined. He said that the position and the momentum can't both be precisely determined at the same time. The more precisely you determine one, the more fuzzy the other becomes at the same time.
The magnetic field around an atom is the shape of?
The magnetic field around an atom is typically shaped like a fuzzy cloud that surrounds the nucleus. This cloud represents the probability of finding an electron at a particular location in space. The shape of the magnetic field is influenced by the movement of electrons within the atom.
Are there pictures of an aluminium electron cloud?
No, there really aren't any pictures of the electron cloud of an aluminum atom. Atoms are too small for conventional pictures. There are drawings of the electron clouds of atoms, but they're just "fuzzy shapes" because the location, or, rather, the probable location, of electrons cannot be precisely stated. It can only be given as a probability density function - an "indefinite area where an electron is most likely to be" as it is hanging around in orbit. The shapes of the electron clouds vary as we look at them from atom to atom. A link is provided to a post introducing the viewer to the basic shapes.
What is the fuzzy part of an atom called?
I suppose on some atom models the electron cloud would be called "fuzzy".
What is the fuzzy cloud around the stars?
Stars appear to twinkle and are fuzzy due to the earths atmosphere
Why is the atomic size considered to have no definite boundary?
Atomic size is defined as the distance between the nucleus and the outermost electron in an atom. Since electrons occupy regions of space called orbitals, which have fuzzy boundaries, it is difficult to pinpoint an exact boundary of an atom. Additionally, the electron cloud distribution is not uniform, making the atomic size less precise.
The understanding that the position of an electron in an electron cloud cannot precisely be determined was developed by Werner Heisenberg and is known as the?
"Uncertainty Principle". He didn't say that the position can't be precisely determined. He said that the position and the momentum can't both be precisely determined at the same time. The more precisely you determine one, the more fuzzy the other becomes at the same time.
The magnetic field around an atom is the shape of?
The magnetic field around an atom is typically shaped like a fuzzy cloud that surrounds the nucleus. This cloud represents the probability of finding an electron at a particular location in space. The shape of the magnetic field is influenced by the movement of electrons within the atom.
The region around the atomic nucleus occupied by the electrons is called the negative zone?
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Are there pictures of an aluminium electron cloud?
No, there really aren't any pictures of the electron cloud of an aluminum atom. Atoms are too small for conventional pictures. There are drawings of the electron clouds of atoms, but they're just "fuzzy shapes" because the location, or, rather, the probable location, of electrons cannot be precisely stated. It can only be given as a probability density function - an "indefinite area where an electron is most likely to be" as it is hanging around in orbit. The shapes of the electron clouds vary as we look at them from atom to atom. A link is provided to a post introducing the viewer to the basic shapes.
Why is an electron cloud pictured with a fuzzy line?
"Cloud" ought to give you a clue.Very, very small objects simply do not behave the same way that objects on the scale we're used to do. When you look at a bowling ball, it looks (and feels, and acts) like it has a hard edge that's well-defined.Electrons aren't like that. We can't even say with certainty where an electron is; it behaves in some ways as if it's lots of places at once, and even when we can narrow it down to a smaller region, it can "jump" from that region to another one without ever seeming to pass through the space in between. The best we can do is talk in terms of probabilities, and while the probability for an electron in an atom is highest for the region near the nucleus of that atom (well, at least relatively near ... within an Angstrom or two), the probability that it's several feet ... or miles ... or light-years ... away is not zero (it's just very close to zero). So we can't draw a sharp line and say "the electron is definitely inside here". Given that, it makes more sense to depict the line as "fuzzy", which better conveys the idea "the electron is probably somewhere inside here ... we're about 90 (or 95, or 99) percent sure of it ... but it might be outside".
How many faces vertices and edges does a oxygen have?
None. An oxygen atom has a roughly spherical nucleus which is surrounded by a fuzzy cloud of electrons.
In which direction does the electron rotate around the nucleus in an atom?
An electron doesn't have specific orbital path about an atomic nucleus. They move in specific energy levels that we identify as specific electron orbitals. But recall that the area where the electrons hang out is called the electron cloud. It's a "fuzzy zone" where electrons may be found. Electrons don't have specific routes about any atomic nucleus.
If fuzzy wuzzy wasn't fuzzy why is he fuzzy wuzzy?
because fuzzy wazzy was fuzzy
When you call fuzzy set as fuzzy graph?
fuzzy graph is not a fuzzy set, but it is a fuzzy relation.
