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What is the second quatum number for one of the electrons in the 4p energy sublevel of bromine?
The second quantum number, also known as the azimuthal or angular momentum quantum number (l), describes the shape of an electron's orbital. For the 4p energy sublevel, the value of l is 1, as p orbitals correspond to l = 1. Therefore, for one of the electrons in the 4p sublevel of bromine, the second quantum number is 1.
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What could be the fourth quantum number for on of the electrons in the 4p energy sublevel of bromine?
ms -1/2
What could be the fourth quantum number for one of the electrons on the 4p energy sublevel of bromine?
ms=-1/2
What is the maximum number of spins possible in a given sublevel?
The maximum number of spins possible in a given sublevel is equal to the number of electrons that can occupy that sublevel, which is determined by the maximum number of electrons allowed in that sublevel based on the electron configuration rules (2 electrons per orbital). The total number of spins will be equal to twice the number of electrons in that sublevel.
What is the highest energy sublevel for tellurium?
The highest energy sublevel for tellurium (Te), which has an atomic number of 52, is the 5p sublevel. In its electron configuration, tellurium is represented as [Kr] 5s² 4d¹⁰ 5p⁴, indicating that the 5p sublevel is the outermost and highest energy level occupied by electrons.
How many number of electrons of helium in outer ring?
Helium has only two electrons with one ring (or energy level). Both the electrons are in the one and only energy level / shell / ring.
What is the second quantum number for the electrons in the 4p energy sublevel of bromine?
The second quantum number (l) for the electrons in the 4 p energy sublevel of bromine would be 1.
What could be the fourth quantum number for on of the electrons in the 4p energy sublevel of bromine?
ms -1/2
What could the third quantum number for one of the electrons in the 4p energy sublevel of bromine?
M1 = -1
What could be the fourth quantum number for one of the electrons on the 4p energy sublevel of bromine?
ms=-1/2
What is the second quantum number for one of the electrons in the 4p energy sublevel of bromine?
l = 1
How many electrons fill the sixth energy level?
The sixth energy level can hold up to 72 electrons, with each sublevel accommodating a specific number of electrons: s sublevel = 2 electrons, p sublevel = 6 electrons, d sublevel = 10 electrons, and f sublevel = 14 electrons.
What could be the fourth quantum number for one of the electrons in the 4p energy sublevel of bromine?
ms -1/2
What is the maximum number of electrons that can enter each type of sublevel (s, p, d, and f) in an atom?
The maximum number of electrons that can enter each type of sublevel in an atom are as follows: s sublevel: 2 electrons p sublevel: 6 electrons d sublevel: 10 electrons f sublevel: 14 electrons
What is the maximum number of spins possible in a given sublevel?
The maximum number of spins possible in a given sublevel is equal to the number of electrons that can occupy that sublevel, which is determined by the maximum number of electrons allowed in that sublevel based on the electron configuration rules (2 electrons per orbital). The total number of spins will be equal to twice the number of electrons in that sublevel.
What is the highest energy sublevel for tellurium?
The highest energy sublevel for tellurium (Te), which has an atomic number of 52, is the 5p sublevel. In its electron configuration, tellurium is represented as [Kr] 5s² 4d¹⁰ 5p⁴, indicating that the 5p sublevel is the outermost and highest energy level occupied by electrons.
How many electrons can the S sublevel hold?
there are two electons in the s sublevel. It is the number of electrons that fit in the first orbital around an atom.
How many electrons are found in each sublevel?
Multiply the orbitals in that sublevel by 2. The s sublevel has one orbital and can contain 2 electrons. The p sublevel has three orbitals and can contain 6 electrons. The d sublevel has five orbitals and can contain 10 electrons. The f sublevel has seven orbitals and can contain 14 electrons.
