Effective Nuclear Charge: Definition, Formula, and Chart (2024)

Table Of Contents

What is Effective Nuclear Charge
Effective Nuclear Charge and Nuclear Charge
Effective Nuclear Charge Equation
How to Find the Effective Nuclear Charge
Effective Nuclear Charge Periodic Trend
Problems

An atom consists of the nucleus surrounded by electrons residing in different shells. Electrostatic forces of attraction arise between the nucleus and the electrons. Similarly, electrostatic repulsive forces also arise between the inner and the outer electrons. The repulsive forces weaken the attractive forces, resulting in electron shielding ^[1,2].

What is Effective Nuclear Charge

According to Coulomb’s law, the attractive electrostatic force between the nucleus and the electron depends on the nuclear charge, electron charge, and electron-nucleus distance. However, Coulomb’s law is only suitable for single-electron atoms or ions. For a multi-electron atom, the calculations are complicated as the forces need to be added vectorially. Overall, the outer electrons experience a lower force and a reduced nuclear charge due to shielding by the inner electrons. This reduced charge is known as the effective nuclear charge. It is called effective because the shielding prevents the outer electrons from experiencing the full charge ^[1-4].

Effective Nuclear Charge and Nuclear Charge

The actual nuclear charge is the atomic number multiplied by the proton charge. On the other hand, the effective nuclear charge is the net charge on the nucleus that attracts the valence electrons towards itself. The effective nuclear charge is always less than the actual nuclear charge ^[3].

Effective Nuclear Charge Equation

The effective nuclear charge can be approximated as ^[1],

Z_eff = Z – S

Where,

Z_eff: Effective nuclear charge

Z: Atomic number

S: Shielding constant

How to Find the Effective Nuclear Charge

The effective nuclear charge can be determined by using Slater’s rule. This rule calculates Z_eff from the actual number of protons in the nucleus and the effect of electron shielding. In order to illustrate this concept, let us take the example of chlorine (Z = 17), whose electron configuration is 1s²2s²2p⁶3s²3p⁵ ^[5].

Effective Nuclear Charge Periodic Trend

The effective nuclear charge increases across a period in the periodic table. The reason is that the atomic number increases across a period, thereby increasing the nuclear charge. However, there is no extra shell of electrons to increase the shielding constant ^[6].

The effective nuclear charge decreases down a group. The reason is that there is an extra shell of electrons for every period down a group. This effect is so prominent that it counters the effect due to the increasing atomic number.

Problems

P.1. Determine the effective nuclear charge of lithium (Z = 3).

Soln.:

Step 1: The electronic configuration of lithium is,

(1s²) (2s¹)

Step 2: The electrons of interest are 1s- and 2s-electrons.

Step 3: For 1s-electrons: 1 x 0.3 = 0.3

Hence,

Z_eff = 3 – 0.3 = 2.7

For 2s-electron: 2 x 0.85 = 1.7

Hence,

Z_eff = 3 – 1.7 = 1.3

Z	3
1s	2.7
2s	1.3

P.2. Determine the effective nuclear charge of F^– (Z = 9).

Soln.:

Step 1: Fluoride (F^–) has 10 electrons, of which 2 are inner and 8 are outer. Its electron configuration is,

(1s²) (2s², 2p⁶)

Step 2: The electron of interest is a valence electron or a n = 2 electron.

Step 3: The shielding constant is calculated as follows.

7 electrons in the same n = 2 group: 7 x 0.35 = 2.45

2 electrons in the n = 1 group: 2 x 0.85 = 1.7

Therefore, S = 2.45 + 1.7 = 4.15

Hence, Z_eff = 9 – 4.15 = 4.85

References

FAQs

Effective Nuclear Charge: Definition, Formula, and Chart? ›

The effective nuclear charge is the net positive charge experienced by valence electrons. It can be approximated by the equation: Zeff = Z – S, where Z is the atomic number and S is the number of shielding

shielding

The shielding effect can be defined as a reduction in the effective nuclear charge on the electron cloud, due to a difference in the attraction forces on the electrons in the atom. It is a special case of electric-field screening.

https://en.wikipedia.org › wiki › Shielding_effect

Shielding effect - Wikipedia

electrons. Key Terms. valence shell: is the outermost shell of every element.

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What is effective nuclear charge definition and explanation? ›

Effective nuclear charge is the magnitude of positive charge in an atom from the pull on the valence electrons towards the positively charged nucleus. An increase in atomic number associated with a decrease in atomic radius will result in a higher effective nuclear charge.

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What is Zeff on the periodic table? ›

The effective atomic number Z_eff, (sometimes referred to as the effective nuclear charge) of an atom is the number of protons that an electron in the element effectively 'sees' due to screening by inner-shell electrons.

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What is the formula for Slater's rule? ›

calculated by subtracting the screening constant (S) from the atomic number Z (nuclear charge). ings: (ls); (2s,2p), (3s, 3p); (3d; (as, ail; $d); (afl; (ss, 5p); (5d);(51and so on. (a) No contribution for electrons in groups beyond the one considered. is used instead ol-0.35).

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How does effective nuclear charge change in group and period in the periodic table? ›

Nuclear charge increases both in a period and group. But, effective nuclear charge increases in a period and decreases in a group.

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What is the rule of effective nuclear charge? ›

Subtract S from Z

Finally subtract the value of S from Z to find the value of effective nuclear charge, Zeff. For example, Us the Lithium atom, then Z =3 (atomic number) and S = 1.7.

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Which definition is true for effective nuclear charge? ›

In atomic physics, the effective nuclear charge is the actual amount of positive (nuclear) charge experienced by an electron in a multi-electron atom.

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How to calculate the effective nuclear charge? ›

The shielding effect explains why valence-shell electrons are more easily removed from the atom. The effective nuclear charge is the net positive charge experienced by valence electrons. It can be approximated by the equation: Zeff = Z – S, where Z is the atomic number and S is the number of shielding electrons.

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Does larger Zeff mean larger radius? ›

When Zeff is large, an electron will be more attracted to the nucleus, which decreases the atomic radius. As we go up and to the right on the periodic table, atomic radius decreases while Zeff increases.

What is the difference between Zeff and nuclear charge? ›

Effective nuclear charge (Z _eff ) is the nuclear charge experienced by the outermost electron shell and nuclear charge (Z) is the net charge of the nucleus in the atom.

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Why is the effective nuclear charge important? ›

A higher effective nuclear charge causes greater attractions to the electrons, pulling the electron cloud closer to the nucleus which results in a smaller atomic radius. Down a group, the number of energy levels (n) increases, so there is a greater distance between the nucleus and the outermost orbital.

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What is the effective nuclear charge of Fe? ›

The effective nuclear charge of 4s electron of Fe is, 4.1.

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Why does Zeff increase down a group? ›

As we go down a group in the periodic table, Zeff is decreasing, and now because the valence electrons are not held as closely to the nucleus, the atomic radius will increase down a group.

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What are the two factors responsible for increasing effective nuclear charge? ›

The effective nuclear charge means net positive charge experienced by an electron in a polyelectronic atom. There are two factors responsible for increasing the effective nuclear charge, which is electrons and protons.

What is the Z effective? ›

The effective nuclear charge (often symbolized asZ_eff or Z*) is the net positive charge experienced by an electron in a multi-electron atom. The term “effective” is used because the shielding effect of negatively charged electrons prevents higher orbital electrons from experiencing the full nuclear charge.

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What is the trend of effective nuclear charge? ›

Trends. The periodic table tendency for effective nuclear charge: Increase across a period (due to increasing nuclear charge with no accompanying increase in shielding effect). Decrease down a group (although nuclear charge increases down a group, shielding effect more than counters its effect).

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What is the definition of effective nuclear charge quizlet? ›

effective nuclear charge (Zeff) the actual nuclear charge experienced by an electron, defined as the charge of the nucleus plus the charge of the shielding electrons.

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What best describes the purpose of effective nuclear charge? ›

The purpose of effective nuclear charge is to evaluate how much attraction a given electron 'feels' from the nucleus so that periodic trends can be predicted and rationalized.

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What is the difference between nuclear charge and effective charge? ›

Effective nuclear charge (Z _eff ) is the nuclear charge experienced by the outermost electron shell and nuclear charge (Z) is the net charge of the nucleus in the atom.

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Does Zeff increase or decrease down a group? ›

So as you go down a group, the number of shells is increasing. That means we are getting more and more shielding electrons. These shielding electrons block the valence electrons from having a strong attraction to the nucleus so Zeff decreases.

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