Presentation is loading. Please wait.

Presentation is loading. Please wait.

5-2: Electron Configuration and the Periodic Table

Similar presentations


Presentation on theme: "5-2: Electron Configuration and the Periodic Table"— Presentation transcript:

1 5-2: Electron Configuration and the Periodic Table
Objectives: Describe the relationship between electrons in sublevels and the length of the each period of the periodic table Locate and name the four blocks of the periodic table. Explain the reasons for the three names. Discuss the relationship between group configurations and group numbers Describe the locations in the periodic table and the general properties of the alkali metals, the alkaline-earth metals, the halogens, and the noble gases.

2 … Remember? Electron configuration? Four types of sublevels?

3 Periods and Blocks of the Periodic Table
Group: a vertical column of elements in the periodic table Tells how many electrons are in the atom’s outer shell (valence electrons) Period: a horizontal row of elements in the periodic table Length of each period is determined by the number of electrons that occupy the energy sublevels being filled

4 Period of an element can be determined from the element’s electron configuration
Periodic table can be divided into four sublevel blocks based on the electron configuration of elements – s, p, d, and f blocks

5 The s-Block Elements: Groups 1 and 2
Elements of the s-block are chemically reactive metals Elements of Group 1: Outermost energy level contains a single s electron Alkali metals: elements of Group 1 of the periodic table (Li, Na, K, Rb, Ce, Fr) Properties: Silvery appearance and soft enough to cut with a knife (in its pure state) Highly reactive Combine strongly with most nonmetals

6 Elements of Group 2: Outermost energy level contains a pair (2) electrons Alkaline-earth metals: elements of Group 2 of the periodic table (Be, Mg, Ca, Sr, Ba, Ra) Properties: Metals are harder, denser, and stronger than alkali metals Higher melting points Highly reactive Hydrogen and helium do not share the same properties of Group 1 and 2, respectively

7 The d-Block Elements: Group 3-12
Transition metals: metals with typical metallic properties in the d-block of the periodic table Properties: Good conductors of electricity High luster Less reactive than alkali and alkaline-earth metals Some so unreactive they do not form compounds easily

8 The p-Block Elements: Groups 13-18
Properties of the elements of the p-block vary greatly Includes: all of the nonmetals except hydrogen and helium all six of the metalloids (B, Si, Ge, As, Sb, Te) the halogens the noble gases

9 Metalloids (semiconducting metals)
Halogens: the elements of Group 17 (fluorine, chlorine, bromine, iodine, and astatine) The most reactive nonmetals React vigorously with most metals to form salts Metalloids (semiconducting metals) mostly brittle solids with some properties of metals and some of nonmetals Metals of the p-block Generally harder and denser than the s-block alkaline-earth metals, but softer and less dense than the d-block metals Sufficiently reactive to be found in nature only in the form of compounds Stable in the presence of air

10 Main-group elements: elements of the p- block together with elements of the s-block

11 The f-Block Elements: Lanthanides & Actinides
Electrons fill the 4f sublevel Lanthanides are shiny metals similar to the Group 2 alkaline-earth metals Actinides are all radioactive The first 4 have been found naturally and the remaining are known lab-made elements

12 4-shutter foldable s p d f

13 s p d f Alkaline-earth metals Noble gases Alkali metals Metalloids
Transition metals Metalloids Halogens Lanthanides Actinides f


Download ppt "5-2: Electron Configuration and the Periodic Table"

Similar presentations


Ads by Google