0
The Periodic Table and         Periodic Law              Chemistry Unit 5
Why does thePeriodic Table look  the way it does?
Main Ideas   Periodic trends in the properties of atoms allow us to    predict physical and chemical properties.   The p...
Development of the      Modern Periodic TableObjectives: Trace   the development of the periodic table Identify   key fe...
Development of the                Periodic TableIn the 1700’s, Lavoisier compiled a list of  all the known elements of the...
Development of the               Periodic TableThe 1800s brought large amounts of information and scientists needed a way ...
Development of the                Periodic TableThe 1800s brought large amounts of information and scientists needed a way...
Development of the              Periodic TableThe 1800s brought large amounts of information and scientists needed a way t...
Law of OctavesNewlands (1864) noticed when the elements were arranged by increasing atomic mass, their properties repeated...
Law of OctavesOctaves was used due to the musical analogy, but was widely dismissed.Some elements didn’t follow the pattern
The Periodic Table Meyerand Mendeleev both demonstrated a connection between atomic mass and elemental properties.
The Periodic Table Mendeleev’s  Table – A Russian scientist – gets the most credit because he published first.  Arranged...
The Periodic Table Moseley  discovered that each element had a distinct number of protons.  Once rearranged by increasin...
The Periodic TablePeriodic repetition of chemical and physical properties of the elements when they are arranged by increa...
The Modern Periodic                        Table   The modern periodic table contains boxes    which contain the elements...
The Modern Periodic                          Table   Rows of elements are called periods. (total of 7)   Columns of elem...
Types of ElementsElements are classified as metals, non-metals, and  metalloids.   Metals are made up of most of the repr...
Types of ElementsElements are classified as metals,  non-metals, and metalloids.   Alkali metals are all the elements in ...
Alkali Metals   Alkali metals and water
Types of ElementsThe transition elements (groups 3 - 12) are divided into transition metals and inner transition metals. ...
The Modern Periodic                          Table   Non-metals are elements that are generally    gases or brittle, dull...
The Modern Periodic                          Table   Metalloids have physical and chemical    properties of both metals a...
QuestionsWhat is a row of elements on the periodictable called?A. octaveB. periodC. groupD. transition
QuestionsWhat is silicon an example of?A. metalB. non-metalC. inner transition metalD. metalloid
Practice Problems   CALM 5.1
Classification of the                        ElementsObjectives: Explain        why elements in the same group have simil...
Organizing the Elements by Electron ConfigurationElectron configuration determines the chemical properties of an element....
Organizing the Elements by Electron Configuration All    group 1 elements have one valence electron. All    group 2 elem...
Organizing the Elementsby Electron Configuration
Organizing the Elements     by Electron Configuration   The energy level of an element’s valence electrons    indicates t...
Organizing the Elementsby Electron Configuration
Organizing the Elementsby Electron Configuration
Organizing the Elements        by Electron Configuration   The d-block contains the transition metals and is    the large...
Organizing the Elements        by Electron Configuration   The f-block contains the inner transition metals.       f-blo...
Practice Problems   CALM 5:2
Periodic TrendsObjectives: Compare  period and group trends of several properties. Relate  period and group trends in at...
Atomic RadiusAtomic radius – is determined by the amount of positive charge in the nucleus and the number of valence elect...
Diatomic Nonmetals H 2,   N2, O2, F2, Cl2, Br2
Atomic Radius
Organizing the Elementsby Electron Configuration
Atomic RadiusThe periodic trend: decreases from left to right (periods) and increases top to bottom (groups) due to the in...
Atomic Radius
Atomic Radius   Atomic radius generally increases as you move    down a group.   The outermost orbital size increases do...
Ionic RadiusIons – atom(s) that gain or lose one or more electrons  to form a net charge.Ionic radius is the radius of a c...
Ionic Radius   When atoms gain electrons and forms a    negatively charged ion, they become larger.     Increased electr...
Organizing the Elementsby Electron Configuration
Ionic RadiusPeriodic Trend: radius of an ion decreases from left to right (periods) until charge changes and then the radi...
Ionic Radius
Ionization EnergyIonization energy is the energy needed to  remove an electron from the positive charge of  the nucleus of...
Ionization Energy Atoms with large ionization energies have a strong hold of its electrons and are less likely to form po...
Organizing the Elementsby Electron Configuration
Ionization EnergyPeriodic Trend: First ionization energy increases  from left to right across a period. First ionization  ...
Ionization Energy   The octet rule states that atoms tend to gain,    lose or share electrons in order to acquire a full ...
Ionization Energy
ElectronegativityElectronegativity of an element indicates its relative ability to attract electrons in a chemical bond. M...
ElectronegativityPeriodic Trend: electronegativity decreases down a group and increases left to right across a period.
QuestionsThe lowest ionization energy is the____.A. firstB. secondC. thirdD. fourth
QuestionsThe ionic radius of a negative ion becomeslarger when:A. moving up a groupB. moving right to left across periodC....
Practice Problems   CALM 5:3
Ion FormationObjective:   Learn the common list of cations   Learn the common list of anions
Cations   Cations are atoms or groups of    atoms that have lost electrons.
Anions   Anions are atoms or groups of    atoms that have gained electrons.
Practice Problems   CALM 5:4
5:4 Accumulating Content   How does the electron configuration of an atom    relate to ion formation?
5:4 Accumulating Content   How do chemical and physical properties relate    to periodic trends? What other properties mi...
5:4 Accumulating Content   What does a group tell us about valence    electrons and ion formation?
Key Concepts   The elements were first organized by increasing    atomic mass, which led to inconsistencies. Later,    th...
Key Concepts   Elements are classified as either metals, nonmetals, or    metalloids.   The periodic table has four bloc...
Key Concepts   Atomic and ionic radii decrease from left to right    across a period, and increase as you move down a    ...
Chapter QuestionsThe actinide series is part of theA. s-block elements.B. inner transition metals.C. non-metals.D. alkali ...
Chapter QuestionsIn their elemental state, which group has  a complete octet of valence electrons?A. alkali metalsB. alkal...
Chapter QuestionsWhich block contains the transition metals?A. s-blockB. p-blockC. d-blockD. f-block
Chapter QuestionsAn element with a full octet has how many valence electrons?A. twoB. sixC. eightD. ten
Chapter QuestionsHow many groups of elements are there?A. 8B. 16C. 18D. 4
Chapter QuestionsWhich group of elements are the least reactive?A. alkali metalsB. inner transition metalsC. halogensD. no...
Chapter QuestionsOn the modern periodic table, alkaline earth metals are found only in ____.A. group 1B. s-blockC. p-block...
Chapter QuestionsBromine is a member of theA. noble gases.B. inner transition metals.C. earth metals.D. halogens.
Chapter QuestionsHow many groups does the d-block span?A. twoB. sixC. tenD. fourteen
THE END
Chapter Questions
Chapter Questions
Chapter Questions
Chapter Questions
Chapter Questions
Chem unit 5 presentation
Chem unit 5 presentation
Chem unit 5 presentation
Chem unit 5 presentation
Upcoming SlideShare
Loading in...5
×

Chem unit 5 presentation

2,296

Published on

Published in: Education, Technology
0 Comments
2 Likes
Statistics
Notes
  • Be the first to comment

No Downloads
Views
Total Views
2,296
On Slideshare
0
From Embeds
0
Number of Embeds
1
Actions
Shares
0
Downloads
76
Comments
0
Likes
2
Embeds 0
No embeds

No notes for slide

Transcript of "Chem unit 5 presentation"

  1. 1. The Periodic Table and Periodic Law Chemistry Unit 5
  2. 2. Why does thePeriodic Table look the way it does?
  3. 3. Main Ideas Periodic trends in the properties of atoms allow us to predict physical and chemical properties. The periodic table evolved over time as scientists discovered more useful ways to compare and organize elements. Elements are organized into different blocks in the periodic table according to their electron configurations. Trends among elements in the periodic table include their size and their ability to lose or attract electrons
  4. 4. Development of the Modern Periodic TableObjectives: Trace the development of the periodic table Identify key features of the periodic table
  5. 5. Development of the Periodic TableIn the 1700’s, Lavoisier compiled a list of all the known elements of the time.  33 elements
  6. 6. Development of the Periodic TableThe 1800s brought large amounts of information and scientists needed a way to organize knowledge about elements. of electricity – break down Advent compounds Development of the spectrometer – identify newly isolated elements
  7. 7. Development of the Periodic TableThe 1800s brought large amounts of information and scientists needed a way to organize knowledge about elements. revolution – new chemistry Industrial based ingredients and compounds. 70 known elements by 1870
  8. 8. Development of the Periodic TableThe 1800s brought large amounts of information and scientists needed a way to organize knowledge about elements. JohnNewlands proposed an arrangement where elements were ordered by increasing atomic mass.
  9. 9. Law of OctavesNewlands (1864) noticed when the elements were arranged by increasing atomic mass, their properties repeated every eighth element.
  10. 10. Law of OctavesOctaves was used due to the musical analogy, but was widely dismissed.Some elements didn’t follow the pattern
  11. 11. The Periodic Table Meyerand Mendeleev both demonstrated a connection between atomic mass and elemental properties.
  12. 12. The Periodic Table Mendeleev’s Table – A Russian scientist – gets the most credit because he published first.  Arranged elements by increasing mass and columns with similar properties.  Predicted the existence and properties of undiscovered elements.  Still some inconsistencies.
  13. 13. The Periodic Table Moseley discovered that each element had a distinct number of protons.  Once rearranged by increasing atomic number, the table resulted in a clear periodic pattern.
  14. 14. The Periodic TablePeriodic repetition of chemical and physical properties of the elements when they are arranged by increasing atomic number is called periodic law.
  15. 15. The Modern Periodic Table The modern periodic table contains boxes which contain the elements name, symbol, atomic number, and atomic mass.
  16. 16. The Modern Periodic Table Rows of elements are called periods. (total of 7) Columns of elements are called groups. (total of 18) Elements in groups 1,2, and 13-18 possess a wide variety of chemical and physical properties and are called the representative elements. Elements in groups 3-12 are known as the transition elements .
  17. 17. Types of ElementsElements are classified as metals, non-metals, and metalloids. Metals are made up of most of the representative elements and all of the transition elements.  They are generally shiny when smooth and clean, solid at room temperature, and good conductors of heat and electricity.  Most are Ductile and Malleable –  Ductile – the ability to be drawn into wire.  Malleable – the ability to be pounded into sheets
  18. 18. Types of ElementsElements are classified as metals, non-metals, and metalloids. Alkali metals are all the elements in group 1, except hydrogen, and are very reactive. Alkaline earth metals are in group 2, and are also highly reactive.
  19. 19. Alkali Metals Alkali metals and water
  20. 20. Types of ElementsThe transition elements (groups 3 - 12) are divided into transition metals and inner transition metals.  The two sets of inner transition metals are called the lanthanide series and actinide series and are located at the bottom of the periodic table.  Lanthanides are phosphors – elements that emit light when struck by electrons.
  21. 21. The Modern Periodic Table Non-metals are elements that are generally gases or brittle, dull-looking solids, and poor conductors of heat and electricity. Group 17 is composed of highly reactive elements called halogens. Group 18 gases are extremely unreactive and commonly called noble gases.
  22. 22. The Modern Periodic Table Metalloids have physical and chemical properties of both metals and non-metals, such as silicon and germanium. They are found along the stair step of the table starting with Boron
  23. 23. QuestionsWhat is a row of elements on the periodictable called?A. octaveB. periodC. groupD. transition
  24. 24. QuestionsWhat is silicon an example of?A. metalB. non-metalC. inner transition metalD. metalloid
  25. 25. Practice Problems CALM 5.1
  26. 26. Classification of the ElementsObjectives: Explain why elements in the same group have similar properties. Identify the four blocks of the periodic table on their electron configuration.
  27. 27. Organizing the Elements by Electron ConfigurationElectron configuration determines the chemical properties of an element. Recallelectrons in the highest principal energy level are called valence electrons.
  28. 28. Organizing the Elements by Electron Configuration All group 1 elements have one valence electron. All group 2 elements have two valence electrons.
  29. 29. Organizing the Elementsby Electron Configuration
  30. 30. Organizing the Elements by Electron Configuration The energy level of an element’s valence electrons indicates the period on the periodic table in which it is found. The number of valence electrons for elements in groups 13-18 is ten less than their group number. After the s-orbital is filled, valence electrons occupy the p-orbital.
  31. 31. Organizing the Elementsby Electron Configuration
  32. 32. Organizing the Elementsby Electron Configuration
  33. 33. Organizing the Elements by Electron Configuration The d-block contains the transition metals and is the largest block.  There are exceptions, but d-block elements usually have filled outermost s orbital, and filled or partially filled d orbital.  The five d orbitals can hold 10 electrons, so the d- block spans ten groups on the periodic table.
  34. 34. Organizing the Elements by Electron Configuration The f-block contains the inner transition metals.  f-block elements have filled or partially filled outermost s orbitals and filled or partially filled 4f and 5f orbitals.  The 7 f orbitals hold 14 electrons, and the inner transition metals span 14 groups.
  35. 35. Practice Problems CALM 5:2
  36. 36. Periodic TrendsObjectives: Compare period and group trends of several properties. Relate period and group trends in atomic radii to electron configuration
  37. 37. Atomic RadiusAtomic radius – is determined by the amount of positive charge in the nucleus and the number of valence electrons of an atom. It is usually measured in picometers (10-12). For metals, atomic radius is half the distance between adjacent nuclei in a crystal of the element. For diatomic nonmetals, the atomic radius is the distance between nuclei of identical atoms.
  38. 38. Diatomic Nonmetals H 2, N2, O2, F2, Cl2, Br2
  39. 39. Atomic Radius
  40. 40. Organizing the Elementsby Electron Configuration
  41. 41. Atomic RadiusThe periodic trend: decreases from left to right (periods) and increases top to bottom (groups) due to the increasing positive charge in the nucleus.
  42. 42. Atomic Radius
  43. 43. Atomic Radius Atomic radius generally increases as you move down a group. The outermost orbital size increases down a group, making the atom larger. Valence electrons are not shielded from the increasing nuclear charge because no additional electrons come between the nucleus and the valence electrons.
  44. 44. Ionic RadiusIons – atom(s) that gain or lose one or more electrons to form a net charge.Ionic radius is the radius of a charged atom. When atoms lose electrons and form positively charged ions, they always become smaller.  Lost electrons are usually valence electrons and could leave the outer orbital empty and therefore smaller.  Electrostatic repulsion between remaining electrons decreases and pulls closer to nucleus.
  45. 45. Ionic Radius When atoms gain electrons and forms a negatively charged ion, they become larger.  Increased electrostatic repulsion increases distance of outer electrons.
  46. 46. Organizing the Elementsby Electron Configuration
  47. 47. Ionic RadiusPeriodic Trend: radius of an ion decreases from left to right (periods) until charge changes and then the radii increases dramatically. After the change, the radius continues to decrease. Ionic radii increases top to bottom (groups) until change in charge.
  48. 48. Ionic Radius
  49. 49. Ionization EnergyIonization energy is the energy needed to remove an electron from the positive charge of the nucleus of a gaseous atom. (how strongly a nucleus holds on to an electron.) First ionization energy is the energy required to remove the first electron. Removing the second electron requires more energy, and is called the second ionization energy.
  50. 50. Ionization Energy Atoms with large ionization energies have a strong hold of its electrons and are less likely to form positive ions. Atoms with low ionization energies lose their outer electrons easily and readily form positive ions. Theionization at which the large increase in energy occurs is related to the number of valence electrons.
  51. 51. Organizing the Elementsby Electron Configuration
  52. 52. Ionization EnergyPeriodic Trend: First ionization energy increases from left to right across a period. First ionization energy decreases down a group because atomic size increases and less energy is required to remove an electron farther from the nucleus.
  53. 53. Ionization Energy The octet rule states that atoms tend to gain, lose or share electrons in order to acquire a full set of eight valence electrons. The octet rule is useful for predicting what types of ions an element is likely to form.
  54. 54. Ionization Energy
  55. 55. ElectronegativityElectronegativity of an element indicates its relative ability to attract electrons in a chemical bond. Measured in Paulings: numbers 4 and less.
  56. 56. ElectronegativityPeriodic Trend: electronegativity decreases down a group and increases left to right across a period.
  57. 57. QuestionsThe lowest ionization energy is the____.A. firstB. secondC. thirdD. fourth
  58. 58. QuestionsThe ionic radius of a negative ion becomeslarger when:A. moving up a groupB. moving right to left across periodC. moving down a groupD. the ion loses electrons
  59. 59. Practice Problems CALM 5:3
  60. 60. Ion FormationObjective: Learn the common list of cations Learn the common list of anions
  61. 61. Cations Cations are atoms or groups of atoms that have lost electrons.
  62. 62. Anions Anions are atoms or groups of atoms that have gained electrons.
  63. 63. Practice Problems CALM 5:4
  64. 64. 5:4 Accumulating Content How does the electron configuration of an atom relate to ion formation?
  65. 65. 5:4 Accumulating Content How do chemical and physical properties relate to periodic trends? What other properties might have periodic trends?
  66. 66. 5:4 Accumulating Content What does a group tell us about valence electrons and ion formation?
  67. 67. Key Concepts The elements were first organized by increasing atomic mass, which led to inconsistencies. Later, they were organized by increasing atomic number. The periodic law states that when the elements are arranged by increasing atomic number, there is a periodic repetition of their chemical and physical properties. The periodic table organizes the elements into periods (rows) and groups (columns); elements
  68. 68. Key Concepts Elements are classified as either metals, nonmetals, or metalloids. The periodic table has four blocks (s, p, d, f). Elements within a group have similar chemical properties. The group number for elements in groups 1 and 2 equals the element’s number of valence electrons. The energy level of an atom’s valence electrons equals its period number.
  69. 69. Key Concepts Atomic and ionic radii decrease from left to right across a period, and increase as you move down a group. Ionization energies generally increase from left to right across a period, and decrease as you move down a group. The octet rule states that atoms gain, lose, or share electrons to acquire a full set of eight valence electrons. Electronegativity generally increases from left to right
  70. 70. Chapter QuestionsThe actinide series is part of theA. s-block elements.B. inner transition metals.C. non-metals.D. alkali metals.
  71. 71. Chapter QuestionsIn their elemental state, which group has a complete octet of valence electrons?A. alkali metalsB. alkaline earth metalsC. halogensD. noble gases
  72. 72. Chapter QuestionsWhich block contains the transition metals?A. s-blockB. p-blockC. d-blockD. f-block
  73. 73. Chapter QuestionsAn element with a full octet has how many valence electrons?A. twoB. sixC. eightD. ten
  74. 74. Chapter QuestionsHow many groups of elements are there?A. 8B. 16C. 18D. 4
  75. 75. Chapter QuestionsWhich group of elements are the least reactive?A. alkali metalsB. inner transition metalsC. halogensD. noble gases
  76. 76. Chapter QuestionsOn the modern periodic table, alkaline earth metals are found only in ____.A. group 1B. s-blockC. p-blockD. groups 13–18
  77. 77. Chapter QuestionsBromine is a member of theA. noble gases.B. inner transition metals.C. earth metals.D. halogens.
  78. 78. Chapter QuestionsHow many groups does the d-block span?A. twoB. sixC. tenD. fourteen
  79. 79. THE END
  80. 80. Chapter Questions
  81. 81. Chapter Questions
  82. 82. Chapter Questions
  83. 83. Chapter Questions
  84. 84. Chapter Questions
  1. A particular slide catching your eye?

    Clipping is a handy way to collect important slides you want to go back to later.

×