The magnetic quantum number value for an element with n=1 is the K shell.
The first quantum number (n) represents the energy level (shell), so for a 1s2 electron, it would have a value of 1.
Oxygen come on now you breath it. :)
"The magnetic field produced by each turn interacts with the field of other turns and multiplies the effect, causing the inductance of a coil of wire to increase by the number of turns (N) squared. Therefore, if you double the number or turns, you quadruple the inductance."
Answer is at the end, skip to there if you just want the answer. Chlorine has 17 electrons. To find the four quantum numbers you first find N. Chlorine's electron configuration is 1s^2 2s^2 2p^6 3s^2 3p^5 Chlorine's last electrons occupy the 3p subshell. Therefore N = 3 Next you find l (Lower Case L) Every subshell letter has a numerical value. S=0 P=1 D=2 F=3 Until you reach (N-1) Remembering the last electron ends in the 3p subshell, we find P=1 so l=1 Next we find the Magnetic Quantum Number which is anywhere from (-l)-0-(+l) in value. Finding this value requires more of an understanding of subshells. S subshells can hold 2 electrons, P subshells can hold 6, and D can hold 10. These occur in pairs of two. Cl's electron configuration is 1s^2 2s^2 2p^6 3s^2 3p^5 Imagine each shell containing boxes that hold two electrons. Each box has a value. Since 3p holds 6 electrons, it will have 3 boxes of two. Fill the boxes with one electron each as an up arrow, and then add a second electron as a down arrow from left to right, until you have used all 17 of Chlorine's electrons. If you do that it will look like this. 3p [II] [II] [I ] The first box's Magnetic Quantum number will be -1 the middle will be 0 and the first will be +1. The last electron we drew was in the middle box, which equals 0. To find ms or the Spin Magnetic Number you imagine the up arrows as +1/2 and down arrows as -1/2. Because the last electron drawn was a down arrow, it equals -1/2. Consider all these numbers together and ... Chlorine is as follows: N:3 (Because of the 3 in 3p) l:1 (Because p equals 1) ml:0 (Because of where the final electron drawn ends) ms: -1/2 (Because the last electron drawn was a down arrow)
In chemistry, the oxidation state is a number assigned to an element as an indicator of the degree of oxidation of an atom in a chemical compound."The charge an element would have if it were an ion "Oxidation state is the same as the oxidation number. It is an indicator of the degree of oxidation of an atom in a chemical compound.
The px orbital has a magnetic quantum number value of -1, and the py orbital has a magnetic quantum number value of 0.
The answar is: magnetic quantum number
-l to l, so given l=2 (d orbital) the values for ml will be -2, -1, 0, +1, +2
The values of the magnetic quantum number depend on the value of the azimuthal quantum number (orbital angular momentum quantum number) and has values -l, .. 0 . ..+l l=1, p orbital, -1, 0, +1 - three p orbitals l=2 d orbital -2, -1, 0., +1,+2 five d orbitals etc.
The quantum number that indicates the position of an orbital is the magnetic quantum number. The number of different sublevels within each energy level of an atom is equal to the value of the principle quantum number.
The principal quantum number for the highest energy electron in carbon would be 2. It is easy to spot this, since carbon exists in row 2 of the period table. The row in which an element resides always shows the highest value of n, or the principal quantum number, that an electron can reside in.
There is no single quantum number that will tell you the size of an atom.The best answer to the question is the principal quantum number n, though it isn't a particularly good answer. While in general atoms with high maximum n tend to be larger than atoms with low maximum n, this doesn't always hold true. For example, chlorine (highest n value 3) is actually slightly smaller than lithium (highest n value 2).Also, two atoms with the same maximum n can be significantly different in size.
The principal quantum number is the level of the most energetic electrons in an atom. It also corresponds to which period the element is in on the periodic table. For example, barium has a principal quantum number of 6 because its valence electrons are in level 6, and the element is in period 6.
Orbitals with the same value of Principal Quantum number , n.
Which sublevel the electron is in.
10 electrons.The angular momentum quantum number is l (small L). This quantum number is dependant on the principal quantum number, and has values, 0 1,2 ..(n-1), where each value of n refers to a subshell known to chemists as followsn= 0, s orbital; n=1, p orbital; n= 2, d orbital; n= 3, f orbital.So we are looking at the d orbitals.There are five d orbitals, with magnetic quantum numbers running from -l to +l, that is -2, -1, 0, +1, +2Each of these can hold 2 electrons (with spin quantum numbers -1/2, +1/2)So we have 10 electrons that can have pricipal quantum numbers of 4 and angular monmentum quantum number of 2.
In theory, the number of electrons with each quantum number is not limited. However, for any given "main quantum number" (n), the number of electrons having the other quantum numbers is limited - but it depends on the value of "n". For more information, the Wikipedia article on "quantum number" seems to give a good overview.