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When Sigma bonds are formed as a result of the overlapping of which type of atomic orbital?
s and p
Which of the followingprovides the best analogy for an electron in an atomic orbital?
A bird flying around a tree.
What do we call a region in space where an electron with a particular energy is likely to be found?
We could use the term orbital if it refers to an electron bound in an atom. The term atomic orbital or electron orbital might be applied in this case. They are areas of probability where, because an electron has a given energy, it may be more likely to be found. Got a link to the Wikipedia on atomic orbitals for ya. Check it out and gain in knowledge.
Does argon have an atomic radius?
Yes, argon does have an atomic radius. The atomic radius is the distance from the nucleus of an atom to the outermost electron orbital. In the case of argon, its atomic radius is about 0.98 angstroms.
What is the best analogy describing the location of an electron in an atomic orbital?
An electron in an atomic orbital can be compared to a cloud around the nucleus, where the electron is most likely to be found but its exact position is uncertain. Just as a bee buzzing around a hive is more likely to be found in certain areas but can move unpredictably within that region.
How does a molecular orbital differ from an atomic orbital?
Molecular consists of multiple atomic orbitals
What are radial nodes and how do they affect the behavior of an atomic orbital?
Radial nodes are regions in an atomic orbital where the probability of finding an electron is zero. They affect the behavior of an atomic orbital by influencing the shape and size of the orbital, as well as the energy levels of the electron within the orbital.
What is a radial node and how does it relate to the overall structure of an atomic orbital?
A radial node is a region in an atomic orbital where the probability of finding an electron is zero. It relates to the overall structure of an atomic orbital by influencing the shape and size of the orbital, as well as the distribution of electron density within the orbital.
What is a molecular orbital vs an atomic orbital?
according to MOT each energy level can be occupied by 2 electrons which must have opposite spins these pairs of electrons considered to occupy molecular orbital. so molecular orbital is formed from the overlap of the atomic orbitals of the atoms making up the bond.
What is amotic orbital?
Atomic Orbital is a math funciton which utilizes quantum mechanics. Atomic Orbital represents three-dimensional volume and indicates where an electron will be found.
Why is the 2s atomic orbital on oxygen lower in energy compared to the 2p atomic orbital on oxygen?
The 2s atomic orbital on oxygen is lower in energy compared to the 2p atomic orbital because the 2s orbital experiences greater electron-nucleus attraction due to its spherical shape, which allows the electrons to be closer to the nucleus, resulting in lower energy levels.
What comes after 3p in the atomic orbital?
After the 3p orbital, the next atomic orbital is the 4s orbital. In the order of filling according to the Aufbau principle, the 4s orbital is filled before the 3d orbital. Following the 4s, the 3d orbitals are filled, and then the 4p orbitals come next.
Region around an atomic nucleus where electrons are found?
atomic orbital
Is an antibonding orbital a molecular orbital whose energy is lower than that of the atomic orbital from which it is formed?
No, an antibonding orbital is a molecular orbital whose energy is higher than that of the atomic orbitals from which it is formed. Antibonding orbitals weaken the bond between atoms.
Is size a atomic orbital?
No, size is not an atomic orbital itself; rather, atomic orbitals are regions in an atom where there is a high probability of finding electrons. Each orbital has a specific shape and energy level, which influences the distribution of electrons around the nucleus. The "size" of an atomic orbital can be described in terms of its principal quantum number and the spatial extent of the electron density, but it is not a standalone concept.
Who discovered the atomic orbital?
The concept of atomic orbitals was developed by Erwin Schrödinger in 1926 as part of the wave-mechanical model of the atom. Schrödinger's equation described the behavior of electrons in atoms as standing waves around the nucleus.
The sp3d2 atomic hybrid orbital set accommodates how many electron PAIRS?
there r 2 electrons in the s orbital, their r 6 electrons in p orbital , their r 10 electron's in the d orbital and 14 electrons in f orbital.
