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Published byLoren Sutton Modified over 9 years ago
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Periodic Trends
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All property trends will be examined in the horizontal (period) and vertical (group) according to changes in Effective Nuclear Charge. We will look at 5 periodic trends: Atomic Radius Ionic Radius Ionization EnergyElectron Affinity Electronegativity Chapter 5 Mantra Electron Configuration determines properties. Electron Configuration is a predictable, repeating pattern, So Properties are a predictable, repeating pattern.
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Atomic Radius Horizontal Trend - Atoms tend to be smaller the farther to the right they are found across a period. Reason – New shells are added moving down, which decreases effective nuclear charge, letting electrons move farther out. Vertical Trend - Atoms tend to be larger the farther down in a group they are found. Reason – Moving right, atoms in a period have the same amount of shielding, but increasing protons increases effective nuclear charge which pulls the electrons in closer. Atomic Radius can change under different conditions, so to be standard, it is defined as half the distance between the nuclei of two identical atoms bonded together.together
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Ionic Radius Ions come in two forms, cations and anions Cations – are positively charged because the have lost electrons. Anions – are negatively charged because the have gained electrons. Gaining are losing electrons makes the ion’s radius different from the neutral atom’s radius.
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Ionic Radius Trends in ionic radii are similar to those of atomic radii. Vertical Trend – Ions tend to be larger the farther down in a group they are found. Reason – New shells are added moving down, which decreases effective nuclear charge, letting electrons move farther out. Horizontal Trend – Ions tend to be smaller the farther to the right they are found across a period. However, there is a jump in size when anions start to form. Reason – Moving right, there is increasing effective nuclear charge which draws the electrons in closer. The jump in size for anions is caused by the gaining of electrons to form the anions. Note: No radii listed for noble gases and other elements which do not form ions.
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Notice the same trend as Atomic Radius, but with the jump at anions.
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Note how radii decrease moving to the right and the jump cause by switching to anions.
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1.Of the elements Mg, Cl, Na, and P, which has the largest atomic radius? Explain your answer in terms of trends of the periodic table. 2.Of the elements Be, Mg, Ca, and Sr, which has the largerst atomic radius? Explain your answer in terms of trends of the periodic table. 3.Of the ions Na +, Mg 2+, P 3-, S 2-, and Cl -, which has the largerst ionic radius? Explain your answer in terms of trends of the periodic table. 4.Why is there not ionic radius listed for any noble gas? 5.What causes the jump in ionic radius between elements with atomic number 31 and 34 in period 4?
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The trends we will look at today all have to do with atoms becoming ions, that is gaining or losing electrons. So lets review about an ion.ion
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Ionization Energy Any process that results in the formation of an ion is referred to as ionization. The energy required to remove one electron from a neutral atom of an element is the ionization energy, IE. In other words, Ionization Energy is the energy required to make a cation. Low Ionization Energy means the atoms tend to form cations.
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Reason – Decreasing effective nuclear charge makes the electrons easier to remove. Horizontal Trend – In general, ionization energies of the elements increase going right across each period. Reason – Increasing nuclear charge increases the attraction for electrons making them more difficult to remove. Ionization Energy Vertical Trend – In general, ionization energies of the elements decrease going down a group. Noble Gases have high Ionization Energies since they are stable and would not want to lose an electron. Also, atoms on the right side of the table tend to form anions, while ionization energy is making cations. The higher ionization energy shows that cations of these elements are unstable.
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Note the spike in ionization energy for Noble Gases
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Ionization Energies for more than 1 electron Large jumps in energy occur after the most stable ion. The energy to remove additional electrons can also be measured. A large jump between ionization energies would indicate which cation is most stable. Ionization Energy LiBeB IE 1 520900201 IE 2 729817572427 IE 3 11815148492660 IE 4 2100725026 Li +, Be 2+, and B 3+ are most stable.
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Electron Affinity Electron Affinity is the energy released after and electron is added to a neutral atom. Horizontal Trend - Electron affinity generally increases right across periods. Reason – Lower effective nuclear charge does not attract extra electrons very much. Reason - Increasing nuclear charge attracts extra electrons making anions easily Vertical Trend – Electron Affinity general decreases down groups. Since it is the energy released, the sign of Electron Affinity is negative. The more negative, the greater the Electron Affinity and the more easily the atoms makes an anion. It is basically the opposite of Ionization Energy. Exceptions - Noble Gases have low Electron Affinities since they are stable and would not want to gain an electron. Remember, the elements on the right form anions.
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Electronegativity Electrongatvity is ability of an atom in a compound to attract electrons from surrounding atoms. It is similar to Electron Affinity and describes if an atom will “share” electrons equally or not in a bond. Elements with a high Electron negativity attract electrons from other atoms. If two atoms with very unequal Electronegativities are bonded together, there will be unequal “sharing”sharing The trend is the same for Electron Affinity with F having the highest electronegativity.
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Miniquiz 1.Which will have the highest ionization energy, Li, Be, C or F? 2.Use the Ionization energies below to determine the most stable ion for Al. IE 1 578 IE 2 1817 IE 3 2745 IE 4 11578 IE 5 14831 3.Do elements on the right of the periodic table have higher Electron Affinities? 4.Electronegativity increases as you move towards which element? 5.Will each of these pairs of atoms share equally or not? C-Si Na-F K-Cl
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