The electronic configuration of Neodymium (60) Nd is
- \([Xe] 4f^46s^2\)
- \([Xe] 5f^1\)
- \([Xe] 4f^26s^2\)
- \([Xe] 5f^44d^1\)
The Correct Option is A
Solution and Explanation
Solution: Neodymium (Nd) is an element with the atomic number 60, meaning it has 60 electrons. We need to find its correct electronic configuration.
Step 1: Electronic Configuration Strategy: The electronic configuration of elements is determined based on the Aufbau principle, Hund’s rule, and Pauli’s exclusion principle. The order of filling orbitals follows the increasing energy levels based on the (n + l) rule, where n is the principal quantum number and l is the azimuthal quantum number.
Step 2: Noble Gas Core Representation: The electronic configuration for Neodymium starts with the configuration of the nearest noble gas Xenon ([Xe]), which represents the filled electron shells up to atomic number 54:
$$[Xe] = 1s^2 2s^2 2p^6 3s^2 3p^6 4s^2 3d^{10} 4p^6 5s^2 4d^{10} 5p^6$$
Step 3: Filling the Remaining Electrons: After [Xe], the remaining 6 electrons for Neodymium fill the 4f and 6s orbitals. According to the Aufbau principle:
- The 4f orbitals have a lower energy level than the 5d and 6s orbitals, so they are filled first.
- The 4f subshell can hold up to 14 electrons.
Therefore, the next electrons occupy the 4f orbitals:
$$4f^4 6s^2$$
Step 4: Final Configuration: Thus, the electronic configuration of Neodymium is:
$$[Xe] 4f^4 6s^2$$
Step 5: Verification: The options given are:
- $[Xe] 4f^4 6s^2$
- $[Xe] 5f^7 6s^2$
- $[Xe] 4f^5 6s^2$
- $[Xe] 4f^6 6s^2$
Thus, the correct answer is option 1.
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Concepts Used:
Subshell Electronic Configuration
Electron Configuration is referred to as the distribution of electrons in an atom's orbitals. An electron in an atom is defined by a set of four quantum numbers (n), the most important of which defines the main energy level known as a shell. The filling of electrons into different subshells, also known as orbitals (s, p, d, f) in an atom. The position of an element in the periodic table is determined by the quantum numbers of the last orbital filled.
Subshells:
- The azimuthal quantum number (denoted by 'l') determines the subshells into which electrons are distributed.
- The value of this quantum number is determined by the value of the principal quantum number, n. As a result, when n equals 4, four different subshells are possible.
- When n = 4, The s, p, d, and f subshells correspond to l=0, l=1, l=2, and l=3 values, respectively.
- The formula 2*(2l + 1) gives the maximum number of electrons that a subshell can accommodate.
- As a result, the s, p, d, and f subshells can each hold a maximum of 2, 6, 10, and 14 electrons.
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