1 / 50

Periodic Law: Arrangement and Properties of Elements

Learn about the Periodic Law and how the elements are arranged in the periodic table based on their properties, valence electrons, and atomic number. Understand the characteristics of metals, nonmetals, and metalloids, and explore the trends in atomic radius and ionization energy. Discover the properties and families of alkali metals, alkaline earth metals, transition metals, boron family, carbon family, nitrogen family, and oxygen family.

rtrimble
Download Presentation

Periodic Law: Arrangement and Properties of Elements

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The Periodic Law Dmitri Mendeleev (1860) When the elements are placed in order by increasing atomicmass, their properties repeat in a periodic way.

  2. Moseley (~1910) Changed the elements’ order from atomic mass to atomic number.

  3. An atom’s chemical properties are determined by its valence (outside energy level) electrons. The identity of the element (what element an atom is) is determined by the number of protons it has. Protons

  4. Atoms tend to lose, gain or share electrons in order to get an electron configuration like a noble gas.

  5. Vertically intoGroups Horizontally IntoPeriods Elements are arranged:

  6. Arrangement of Table Metals Metalloids Nonmetals

  7. Metals • Over 75% of the elements are classified as metals. • They are located to the left and lower parts of the periodic table.

  8. Properties of Metals • Malleable • Capable of being shaped or formed by being hammered • Usually shiny, gray colored • Conduct electricity • Conduct heat • Ductile • Capable of being drawn out into a wire • Usually solids at room temperature

  9. Metals Form Cations & Alloys A CATION forms when an atom loses one or more electrons. Metals are mixed with other metals to form alloys. Mg --> Mg2+ + 2 e- Stainless Steel Refrigerator

  10. Nonmetals • They are found in the upper right part of the table. Metals Metalloids Nonmetals

  11. Nonmetal properties are more diverse than the metals. • solid, liquid, or gas at room temp • usually poor heat conductors • usually poor electrical conductors • solids are brittle

  12. Nonmetals Form Anions An ANION forms when an atom gains one or more electrons

  13. Metalloids (also called semimetals) • They are found on the table between the metals and the nonmetals. Metals Metalloids Nonmetals • They have properties of both metals and nonmetals. Examples are silicon, arsenic, and germanium

  14. Horizontally Rows Periods (Energy Levels) • There are 7 periods in the periodic table. • The inner transition metals are actually “inside” periods 6 and 7.

  15. Periodic Trends • Across a period, atomic radius tends to decrease . • Across a period, ionization energy tends to increase .

  16. Vertically into Groups (also called chemical families) Elements are arranged:

  17. Groups • Eight tall groups of main group (representative) elements, numbers ending in A, or #1-2 & 13-18. • Ten shorter groups of transition metals, numbers ending in B or #3-12. • Elements in the same group have the same valence electron configuration, and therefore have similar chemical and physical properties.

  18. Down a group, atomic radius increases and ionization energy decreases.

  19. Increasing Increasing

  20. Alkali Metals reacting with water: Group 1A: Alkali Metals Properties • Li (Lithium)– least reactive • Na (Sodium) • K (Potassium) • Rb (Rubidium) • Cs (Cesium)–more reactive Group or Family Members What would you expect from Francium?!?!

  21. Group 1A: Alkali Metals Properties Valence electron configuration (period)s1 2) Highly reactive with H2O to form alkaline solution. 1) Soft, silver-colored metals

  22. Group 1A: Alkali Metals Properties cont. 3) They tend to form +1 ions Li --> Li1+ + 1 e- 4) Low density (some float in water They are part of the s block.

  23. Now get one color and outline the Alkali Metal Family.

  24. Group 2A: Alkaline Earth Metals Silvery-White Metals Many are found in rocks in the earth’s crust

  25. Group 2A: Alkaline Earth Metals cont. Valence electron configuration (period) s2

  26. Group 2A: Alkaline Earth Metals Properties 1)react w/water to form alkaline solution 2)not as reactive as Group 1 3)not as soft as Group 1 4)tend to form +2 ions Mg --> Mg2+ + 2 e- Part of the s-block

  27. Now get one color and outline the Alkaline Earth Metal Family.

  28. Groups 3B through 2B or 3 through 12Transition Metals

  29. Groups 3B through 2B or 3 through 12 Transition Metals Properties 1)often form coloredcompounds 2) harder than Groups 1 and 2

  30. Groups 3B through 2B or 3 through 12 Transition Metals Many of these elements can form ions with varying charges, such as Fe+3/Fe+2, Cu+2/Cu+1 Part of the d-block

  31. Now get one color and outline the Transition Metals

  32. Groups 3A or 13: Boron Family (sometimes known as Aluminum Family) Valence electron configuration (period) s2 p1 Properties become more metallicdown the group. Part of the p -block

  33. Now get one color and outline the Boron Family (sometimes known as Aluminum Family)

  34. Groups 4A or 14: Carbon Family nonmetals C metalloids Si, Ge metals Sn, Pb

  35. Groups 4A or 14: Carbon Family cont. Valence electron configuration (period) s2 p2 Properties become more metallic down the group. Part of the p -block

  36. Groups 4A or 14: Carbon Family cont. Elements that exist in more than one form are called allotropes. An example is carbon in forms of Amorphic Graphite Diamonds Buckyballs

  37. Now get one color and outline the Carbon Family

  38. Group 5A or 15: Nitrogen Family nonmetals N, P metalloids As, Sb metals Bi

  39. Group 5A or 15: Nitrogen Family Valence electron configuration (period) s2 p3 Properties become more metallic down the group. Nonmetals tend to form ions with - 3 charge. N --> N3- + 3 e- Part of the p -block

  40. Now get one color and outline the Nitrogen Family

  41. Group 6A or 16: Oxygen Family nonmetals O, S, Se metalloid Te metals Po Valence electron configuration (period) s2 p4

  42. Group 6A or 16: Oxygen Family Properties become more metallic down the group. Nonmetals tend to form ions with - 2 charge. O --> O2- + 2 e- Part of the p -block Important allotropes from this group are oxygen in forms O2, oxygen gas and O3, ozone

  43. Now get one color and outline the Oxygen Family

  44. Group 7A or 17: Halogen Family (“saltmakers”) Members – all nonmetals F, Cl, Br, I, At Valence electron configuration (period) s2 p5 Part of the p -block

  45. Group 7A or 17: Halogen Family (“saltmakers”) cont. Very reactive, electronegative (measurement of the attraction for electrons) becausethese atoms need only one electron to have the same electron configuration as a noble gas. Tend to form ions with - 1 charge. F --> F1- + 1 e-

  46. Now get one color and outline the Halogen Family

  47. Group 8A or 18: Noble Gases Sometimes called “inert gases,” though most can be made to react. Valence electron configuration for He 1s2, all others (period) s2 p6

  48. Group 8A or 18: Noble Gases cont. Properties 1. all are gases at room temp 2. relatively unreactive Part of the p -block They have no common ionic charge because they don’t form ions, have stable electron configurations

  49. Now get one color and outline the Noble Gases Compiled by Diddy Pedraza

More Related