Trends in the Periodic Table revisited! SCH4U1 SP04

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Trends in the Periodic Table revisited! SCH4U1 SP04

Factors Affecting the Properties Many of the properties of the elements are related to the force of attraction between the nucleus and the electrons. The force of attraction is dependent on 2 factors... distance and charge.

Coulomb s Law Coulomb s law quantifies the electrostatic attraction between charged particles: F is the force of attraction between opposite charges. q 1 is the charge of the nucleus (# protons). q 2 is the charge on the electron r is the distance from the nucleus to the electron.

Consider the Bohr Model:

Factor 1: The distance between the nucleus and the outer electrons As the distance between the nucleus and the valence electrons increases, the attraction decreases. This means that electrons in higher energy levels have a weaker attraction to the nucleus.

Factor 2: The number of protons in the nucleus (the nuclear charge) As the nuclear charge increases, the force of attraction for the nucleus increases.

Trends in Atomic Radius Across a Period: Greater nuclear charge pulls electrons closer to the nucleus. Radius decreases Down a Group: Electrons in higher energy orbitals are further from the nucleus. Radius increases

Atomic Radii of Stable Metals

Ionization Energy Ionization energy is the energy required to remove one electron from an atom in the gas state. First Ionization Energy is the energy to remove the electron furthest from the nucleus. FIRST IONIZATION (IE 1 ) A + energy A + + e -

Photoelectric Effect Electrons will be ejected from a metal surface only when their energy (E = hv) exceeds a certain threshold (IE 1 )

Further Ionization Energies SECOND IONIZATION (IE 2 ) A + + energy A 2+ + e - THIRD IONIZATION ENERGY (IE 3 ) A 2+ + energy A 3+ + e - Etc.!

Ionization Energies of Beryllium Be (1s 2 2s 2 ) has four ionization energies. 1s 2 2s 2 IE 1 IE 1s 2 2s 1 2 1s 2 IE 3 1s 1 IE 4 no e - Be Be + Be 2+ Be 3+ Be 4+ How do the IE x values relate to the properties of this element?

IE 4 = 21 007 kj/mol n = IE 3 = 14 849 kj/mol IE 1 = 900 kj/mol IE 2 = 1757 kj/mol 2s 2s 2s 2s Be 1s Be + 1s Be 2+ 1s Be 3+ 1s Be 4+

IE and Ionic Charge As each electron is removed, the net positive charge increases and it becomes more difficult to remove electrons. Ionization energy increases: IE 1 < IE 2 < IE 3 < IE 4

IE and Ionic Charge Ionization energies of valence electrons from the same energy level have the same order of magnitude, but IE increases 10-fold when electrons are removed from the 1s orbital: IE 1 < IE 2 <<<<< IE 3 < IE 4 Therefore the stable ionic charge of beryllium is due to fact that two electrons can easily be removed.

Trends in the First Ionization Energy 1) Across the Period (Row): Ionization energy increases as the number of protons increases. Electrons are bound more tightly and more energy is required to remove them.

Trends in the First Ionization Energy

Trends in the First Ionization Energy 2) Down a Group (Column): Ionization energy decreases because the highest occupied orbital is further from the nucleus.

Trends in the First Ionization Energy He Ne Ar

Electron Affinity Electron affinity is the amount of energy released when an electron is added to a neutral atom: A + e - A - + energy Trend follows the same general trend as IE 1 except noble gases have the lowest EA

Exceptions to the Trends in IE 1 Be > B N > O Mg > Al P > S

Task: 1. Draw the energy level diagrams of four elements that are exceptions to the general trend in either Period 2 or Period 3. 2. Write an explanation for each exception based on their electron configurations. You may want to check this reference: Chemguide Ionization Energy

Explanation for Be > B Boron s outer electron is in a higher energy orbital (slightly further from the nucleus). Therefore it takes less energy to ionize despite the higher nuclear charge. (Similar explanation for Mg vs. Al in period 3.)

Explanation for N > O There is electron repulsion in one of the 2p orbitals of oxygen. Therefore it takes less energy to ionize oxygen than nitrogen. (Similar explanation for P vs. S in period 3.)

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