Periodic Trends September 2016.

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Presentation transcript:

Periodic Trends September 2016

Bohr-Rutherford Diagrams (e,vl,ve,ie, nc) Draw the Bohr-Rutherford diagram for: Potassium Bromine Uranium

Effective Nuclear Charge (enc) Is the charge that valence electrons actually feel from the nucleus Determine the enc acting on the valence electrons of Potassium Bromine Uranium

Factors that affect the effect of the nucleus on the valence electrons: Effective nuclear charge -the bigger the enc, the stronger the valence electrons are held in the atom and the closer they are pulled toward the nucleus 2) Valence level - the higher the valence level, the weaker the valence electrons are pulled in/held in the atom and the farther they are from the nucleus

Impact on 4 properties of elements Atomic Radius (size of the atom) Ionization energy Electron affinity Chemical reactivity

Atomic Radius Is the size of the atom, assuming the atom is a sphere Study the following chart of atomic radii. What happens to the radius as you go down a family? What is changing in the atoms as you go down a family: the enc or the valence level? In light of your answer above, try to explain this observed trend. What happens to the radius as you go left to right across a period? What is changing in the atoms as you go across a period: the enc or the valence level? Complete #2,3,4 on page12 in your work book.

Atomic Radius

Atomic Radius Trend

Ionization Energy Is the energy that is needed to take a valence electron from an atom The greater the ionization energy, the more difficult it will be for the atom to lose an electron

Ionization Energy

Ionization Energy (IE) cont’d What happens to the IE as you go down a family? Does this mean that it is easier or more difficult for an atom to lose an electron? How is the atom changing in size as you go down a family? What happens to the IE as you go across a period? How is the atom changing in size as you go across a period? How is the size of the atom related to its IE? How is the size of the atom related to the ease with which it can lose its valence electrons? Complete #3 on page14 in your work book.

IE Trend

Electron Affinity (EA) Is the attraction an atom has for new electrons The higher the affinity, the more likely the atom will gain an electron Based on the trends for atomic radius and IE, you should be able to predict the trend in EA. As you go down a family the EA ______ and as you go across a period the EA ________. How is the size of the atom related to EA? Complete #4 on page 14 in the work book.

EA Trend