1 / 22

ionic Bonding

Chemistry 11. ionic Bonding. Resource: Chang’s Chemistry Chapter 9. Activities. Quizzes Exercises Molecular geometry models Lab: Comparing ionic and covalent compounds Lab: Boiling points. Objectives.

affrica
Download Presentation

ionic Bonding

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. Chemistry 11 ionic Bonding Resource: Chang’s Chemistry Chapter 9

  2. Activities • Quizzes • Exercises • Molecular geometry models • Lab: Comparing ionic and covalent compounds • Lab: Boiling points

  3. Objectives • Describe the ionic bond as the electrostatic attraction between oppositely charged ions. • Describe how ions can be formed as a result of electron transfer. • Deduce which ions will be formed by elements in groups 1, 2, 3, 5, 6, and 7. • State that transition elements can form more than one ion. • Predict whether a compound of two elements would be ionic from the position of the elements in the periodic table or from their electronegativity values. • State the formula of common polyatomic ions formed by nonmetals in periods 2 and 3. • Describe the lattice structure of ionic compounds.

  4. Lewis dot symbols • The discovery of the periodic table and electron configuration gave rise to an even greater understanding of chemistry—bonding. • Lewis stated that: • Atoms combine to achieve greater stability • Maximum stability is achieved when the electron configuration resembles that of a noble gas. • What properties of noble gases support this?

  5. Lewis dot symbols • A Lewis dot symbol is a representation of an element. • It consists of: • The symbol of the element • One dot for every valence electron in an atom of the element. • What other representations of elements have we used so far?

  6. Lewis dot symbols Lewis dot symbol of

  7. Lewis dot symbols Draw the Lewis dot symbol for: • hydrogen • sodium What do you notice? Draw the Lewis dot symbol for: • carbon • oxygen

  8. Ion formation • Recall the definition of an ion and the two types of ions. • Why do atoms form ions? • What roles do you think ionization energy and electronegativity play in the formation of ions?

  9. Ion formation • Explain why atoms form ions using Lewis’s ideas. Factors that affect the formation of ions

  10. Ion formation Predict and explain the ion formation of the following elements: • lithium • sodium • beryllium • magnesium • aluminum • oxygen • fluorine

  11. Ion formation • As a rule: • the alkali metals (Group I) and alkaline earth metals (Group II) form cations, and • the halogens and oxygen form anions • With this in mind, how do you think ionic bonds are formed?

  12. The ionic bond • An ionicbond is the electrostatic force that holds ions together in an ionic compound. • Consider the compound lithium fluoride. • Macroscopically, it is a poisonous white powder used in manufacturing. • Use your knowledge of electron configuration to describe lithium fluoride at the atomic / molecular level.

  13. The ionic bond The electron configurations of lithium and fluoride are: Li 1s22s1 F 1s22s22p5 Lithium surrenders its 2s1 valence electron to fluorine and thus, both achieve the electron configuration of a noble gas.

  14. The ionic bond Write the electron configurations of Li and F when they are in an ionic compound. Which noble gases’ configurations do they resemble? The process can also be represented using Lewis dot symbols (p 247) Notice the steps involved in the formation of the ionic bond between Li and F.

  15. Ionic compounds • What holds ionic compounds together? • The ions involved in ionic compounds are electrically charged. Can we then assume that ionic compounds are also charged?

  16. Ionic compounds • Ionic compounds are held together by the electrostatic force between charged ions, but • Ionic compounds themselves are electrically neutral.

  17. Lattice structure • Consider a very common ionic compound, NaCl (rock salt). What is its gross appearance?

  18. The transition metals • The transition metals are known to commonly form more than one ion. • This comes from the existence of the 3d subshell. • Ions of transition metals are commonly of the +2 and +3 charges. • Which subshell are the electrons of transition metals taken from?

  19. Polyatomic ions • It is not uncommon for two nonmetals to join to form a polyatomic ion. • Can you predict the charge of the following polyatomic ions? • hydroxide (OH) • ammonium (NH4)

  20. Polyatomic ions • One of the elements will be considered as “positive” and the other will be considered “negative”. Some common polyatomic ions

  21. Objectives • Describe the ionic bond as the electrostatic attraction between oppositely charged ions. • Describe how ions can be formed as a result of electron transfer. • Deduce which ions will be formed by elements in groups 1, 2, 3, 5, 6, and 7. • State that transition elements can form more than one ion. • Predict whether a compound of two elements would be ionic from the position of the elements in the periodic table or from their electronegativity values. • State the formula of common polyatomic ions formed by nonmetals in periods 2 and 3. • Describe the lattice structure of ionic compounds.

  22. Exercises Chang’s Chemistry p 378

More Related