What is the only possible value of ML for an electron in as orbital?

Part A
What is the only possible value of m? for an electron in an s orbital?
Express your answer numerically.

Part B
What are the possible values of m? for an electron in a d orbital?
Express your answer numerically with sequential values separated by commas.

Part C
Which of the following set of quantum numbers (ordered n, ?, m?, ms) are possible for an electron in an atom?

Check all that apply.

Concepts and reason The concept used to solve this problem is based on quantum numbers. There are four set of quantum number namely, principal quantum number, n, azimuthal quantum number, l, magnetic quantum number, m and spin quantum number, s. Principal quantum number tells about the subshell in which electron is present. It values varies from 1 to n here, n is natural integer.

Azimuthal quantum number, l tells about the shape of orbital. Its values vary from 0 to

Fundamentals
For a correct set of quantum number, all 4 quantum numbers must satisfy their possible ranges. For example, azimuthal quantum number, l cannot be more than principal quantum number, n. Also, there are only two possible values of spin quantum number that is

Answer:

For s orbital, value of azimuthal quantum number is zero. Therefore, magnetic quantum number

Part A
Possible value of

Total number of magnetic quantum numbers is calculated as 2l+1. Value of azimuthal quantum number is zero. Therefore, total number of magnetic quantum numbers will be:

Part B
Possible values of

Part C.1
The set of quantum numbers is not possible.

Part C.2
The set of quantum numbers is not possible.

Part C.3
The set of quantum numbers is possible.

Part C.4
The set of quantum numbers is possible.

Part C.5
The set of quantum numbers is not possible.

Part C.6
The set of quantum numbers is possible.

Part C.7
The set of quantum numbers is not possible.

Part C.8
The set of quantum numbers is not possible.

If l = 3 then ml = -3 -2 -1 0 1 2 3 (7 possible values) and ms = -1/2 1/2 (2 possible values). 2 × 7 = 14 – it is the number of electrons can be held in a sublevel l = 3.

Which of the following are possible values for ML the magnetic quantum number of L 4?

The Orbital Angular Momentum Quantum Number (l)

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Since l can be zero or a positive integer less than (n−1) it can have a value of 0 1 2 3 4 5 or 6.

What is an ML quantum number for an electron in 4 D?

For a 4d orbital the value of n (principal quantum number) will always be 4 and the value of l (azimuthal quantum number) will always be equal to 2. The values of the magnetic quantum number range from -l to l so the possible values of ml for the 4d orbital are -2 -1 0 1 and 2.

How many values of ML are possible for an electron with orbital quantum number L 2 Express your answer as an integer?

Therefore given l=2 the possible ml values are −2 −1 0 1 2 . This tells us that the d subshell contains five d orbitals each with a different orientation ( dyz dxy dxz dx2−y2 and dz2 ).

What are the possible values of ML?

Answer: the possible values of ml are -1 0 and +1 because the range of values are from -l to +l.

What are the possible ML values for the F orbital?

When l = 3 (f-type orbitals) ml can have values of –3 –2 –1 0 +1 +2 +3 and we can have seven 4f orbitals. Thus we find a total of 16 orbitals in the n = 4 shell of an atom.

How many possible values are of the magnetic quantum number ml of an atomic electron whose orbital quantum number is L 4?

Nine values of ml are possible for an electron with orbital quantum number l = 4.

What are the possible values of ML for a 5d electron?

The value of the azimuthal quantum number l for 5d orbital is 2. The possible values of magnetic quantum number ml are -2 -1 0 +1 and +2.

What are the possible values of ML for an electron with L 2?

Since the value of l is 2 the allowed values of ml = -2 -1 0 1 2. Therefore there are five spatial orbitals which can hold electrons in this subshell.

How many ml values exist for an d orbital?

The d subshell (ℓ = 2) contains five orbitals with mℓ values of −2 −1 0 1 and 2. The value of the mℓ quantum number is associated with the orbital orientation.

What is the only possible value of ML ml for an electron in an s orbital?

For an s orbital the only possible value for ml is . For a d orbital the values of ml are: -2 -1 0 +1 and +2. Finally the sets that apply for an electron in an atom are a. c. and d.

What values of ML are possible for L 1?

l values can be integers from 0 to n-1 ml can be integers from -l through 0 to + l. For n = 3 l = 0 1 2 For l = 0 ml = 0 For l = 1 ml = -1 0 or +1 For l = 2 ml = -2 -1 0 +1 or +2 There are 9 ml values and therefore 9 orbitals with n = 3.

How many different values of ML are possible in the 2p subshell?

The 2p subshell is the set of all 2p orbitals in an atom. They will all have n = 2 and l = 1 but there are three different legal values for ml (-1 0 and +1) indicating that there are three different 2p orbitals in the subshell (one orbital with each ml value).

How many different values of ML are possible in the 3d sublevel?

The possible values of n and ml in the 3d orbital are n = 3 and ml = 2 which is choice C. The 3 in 3d is the n-value. There are 5 sub-orbitals in the d orbital ranging in value from -2 to 2.

How many different values of ML are possible when the principal quantum number is N 4?

Indicate the number of subshells the number of orbitals in each subshell and the values of l and ml for the orbitals in the n = 4 shell of an atom. For n = 4 l can have values of 0 1 2 and 3. Thus s p d and f subshells are found in the n = 4 shell of an atom.

What values of ML are possible for L 3?

Here we have l = 3 that indicates the d-orbital and ‘m’ for d-orbital will be +2 +1 0 -1 -2.

How many possible values of ML would there be if l 20?

The possible values for ml is the range of l: –l to +l. There are 41 ml values when l = 20.

What is ML in quantum numbers?

Magnetic Quantum Number (ml): ml = -l … 0 … +l. Specifies the orientation in space of an orbital of a given energy (n) and shape (l). This number divides the subshell into individual orbitals which hold the electrons there are 2l+1 orbitals in each subshell.

How many values of ML are allowed for an electron in a 5f subshell?

There are 7 possible mℓ values for an electron in the 5f subshell.

What are the possible values of n and ML for an electron in a 4 p orbital?

What are the possible values of n and ml for an electron in a 4d orbital? n = 4 and ml = -2 -1 0 +1 +2.

What is the maximum number of electrons in f orbital?

This means that the s orbital can contain up to two electrons the p orbital can contain up to six electrons the d orbital can contain up to 10 electrons and the f orbital can contain up to 14 electrons.

What are the possible values of the magnetic quantum number ml What are the possible values of the magnetic quantum number?

The magnetic quantum number (m) can be -3 -2 -1 0 1 2 and 3. 4f orbital can hold up to 14 electrons.

What is the total value of ML magnetic quantum number for a given value of L?

ml​=l+2.

What are all the possible values for the magnetic quantum number ml when the angular momentum quantum number L 1?

Problem: What are the possible values of the magnetic quantum number m l? … all the integers in range from -l to +l where l is an angular momentum quantume. number represented by the formula: m = 2l + 1 where l is an angular momentum quantum numberf. all the integer: -3 -2 -1 0 1 2 3 etc.

When n 5 What are the possible values for L?

Each subshell is characterized by a value of n and l. For n = 5 there are 5 possible values of l. We have 5 subshells.

How many different values of ML are possible in the 6d sublevel?

In the case of the 6d-subshell the principal quantum number n which gives you the energy level on which the electron can be found is equal to 6 . Now any d-subshell will contain a total of 5 orbitals given by the values of the magnetic quantum number ml .

When N 4 and L 2 What are the allowed values of ML?

For n = 4 only two values for l can allow ml to take the value 2 l=2 and l=3 .

What is the only possible value of ML for an electron in an s orbital express your answer numerically?

for an electron in s orbital is zero. And it varies from -l to +l therefore it is single value equals to zero. for an electron in d orbital are -2 -1 0 1 and 2.

Which quantum number determines size of orbital?

The principal quantum number (n) describes the size of the orbital. Orbitals for which n = 2 are larger than those for which n = 1 for example.

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How many values does the spin quantum number have?

The spin quantum number tells us the orientation of an electron within an orbital and has two possible values: ms = +1/2 for spin up and ms = -1/2 for spin down.

Which of the following are a possible values of n and ML for an electron in a 5 p orbital?

An electron in a 5p orbital has n = 5. The ml of p-orbital is 1 which makes the possible ml= -1 0 or +1.

How many different values of ML are possible in the 5p sublevel?

How many different values of ml are possible in the 5p sublevel? 29.

What ml quantum numbers are possible when N 2 and L 1?

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