Announcements Friday: Quiz Journal Check: 12 entries Data Table Outline Experimental Design Due
The Periodic Table How is the periodic table put together?
What is the Periodic Table? It is an organizational system for elements. Periodic Table Song – ASAPscience Periodic Table Song – Meet the Elements Picture from
Who created it? The quest for a systematic arrangement of the elements started with the discovery of individual elements. By 1860 about 60 elements were known and a method was needed for organization. In 1869, Russian chemist Dimitri Mendeleev proposed arranging elements by atomic weights and properties. The table contained gaps but Mendeleev predicted the discovery of new elements.
Mendeleev’s Table
So how is it arranged? The genius of the periodic table “is that it is organized like a big grid. The elements are placed in specific places because of the way they look and act. If you have ever looked at a grid, you know that there are rows (left to right) and columns (up and down). The periodic table has rows and columns, too, and they each mean something different. ” quoted from
Periods = Rows Even though they skip some squares in between, all of the rows go left to right. When you look at a periodic table, each of the rows is considered to be a different period (Get it? Like PERIODic table.) quoted from
Across the Periodic Table Periods: Are arranged horizontally across the periodic table (rows 1-7) Periods: Are arranged horizontally across the periodic table (rows 1-7) These elements have the same number of valence shells. These elements have the same number of valence shells. 2nd Period 6th Period
Periods = Rows In the periodic table, elements have something in common if they are in the same row. All of the elements in a period have the same number of atomic orbitals.atomic orbitals Every element in the top row (the first period) has one orbital for its electrons. All of the elements in the second row (the second period) have two orbitals for their electrons. It goes down the periodic table like that.electrons quoted from
And you got your groups… The periodic table has a special name for its columns, too. When a column goes from top to bottom, it's called a group. quoted from ml ml
Down the Periodic Table Family: Are arranged vertically down the periodic table (columns or group, or 1-8 A,B) Family: Are arranged vertically down the periodic table (columns or group, or 1-8 A,B) These elements have the same number electrons in the outer most shells, the valence shell. These elements have the same number electrons in the outer most shells, the valence shell. Alkali Family: 1 e- in the valence shell Alkali Family: 1 e- in the valence shell Halogen Family: 7 e- in the valence shell Halogen Family: 7 e- in the valence shell
Groups = Columns The elements in a group have the same number of electrons in their outer orbital. Every element in the first column (group one) has one electron in its outer shell. Every element on the second column (group two) has two electrons in the outer shell. As you keep counting the columns, you'll know how many electrons are in the outer shell. There are some exceptions to the order when you look at the transition elements, but you get the general idea.transition elements
What do all the numbers mean ? From
Periodic Table: Metallic arrangement Layout of the Periodic Table: Metals vs. nonmetals Metals Nonmetals
Other than periods and groups, the table is divided into families. From
9.16 WARM UP What are 3 ways the periodic table is organized?
Announcements See front board Experimental Design – hard copy Bring science fair journals on Friday Quiz Friday
9.16 WARM UP What are 3 ways the periodic table is organized? 1. Atomic number 2. Properties and characteristics 3. Valence electrons 4. State of Matter 5. Metal Properties
Getting to know the families Groups will discuss each family Find: 3 characteristics 2 common examples Alkali Metals, Alkaline Earth Metals, Transition Metals, Rare Earth Metals, Other Metals, Non-Metals, Metalloids, Halogens, Noble Gases
Alkali Metals 120 Alkaline Earth 121 Transition Metals 122 Lanthanides 122 Actinides 124 Metalloids 135 Carbon Family 130 Nitrogen Family 131 Oxygen Family 132 Halogen Family 133 Noble Gases 134 Hydrogen 134
very reactive metals that do not occur freely in nature malleable, ductile, good conductors of heat and electricity. can explode if they are exposed to water ALKALI METALS From
metals very reactive not found free in nature ALKLINE EARTH METALS From
ductile and malleable, and conduct electricity and heat iron, cobalt, and nickel, are the only elements known to produce a magnetic field. TRANSITION METALS From
many are man-made RARE EARTH ELEMENTS From
are ductile and malleable are solid, have a high density, OTHER METALS From
have properties of both metals and non- metals some of the metalloids are semi- conductors. This means that they can carry an electrical charge under special conditions. This property makes metalloids useful in computers and calculators METALLOIDS From
not able to conduct electricity or heat very well very brittle Do not reflect light. NON-METALS From
"halogen" means "salt-former" and compounds containing halogens are called "salts" exist in all three states of matter HALOGENS From
do not form compounds easily Happy/Inert Elements (Full outer shells)Happy/Inert Elements (Full outer shells) NOBLE GASES From
Trends
Trend 1. Electron Configuration Top has fewer electrons, bottom (NE corner) has the most Electrons increase as you move across and down
2. Trend in Atomic Radius Atomic Radius: Atomic Radius: The size of the atom as determined by the boundaries of the valence e-. Largest atomic species are those found in the SW corner since these atoms have the largest n
3.Trend in Ionization Potential Ionization potential: The energy required to remove the valence electron from the atom. Largest toward NE corner of PT since these atoms hold on to their valence e- the tightest.
4. Trend in Electron Affinity Electron Affinity: The energy release when an electron is added to an atom. Most favorable toward NE corner of PT since these atoms have a great affinity for e-. (Likelihood to gain an electron)
Trends on a graph 2. Atomic Radius & Z: Largest toward SW corner of PT 3. Ionization Energy: Largest toward NE of PT 4. Electron Affinity: Most favorable NE of PT
5. Trends with Metals Becomes less metal-like from left to right More metallic from top to bottom
Secret Words Saying is “_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ happy.”