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Bonding.

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Presentation on theme: "Bonding."— Presentation transcript:

1 Bonding

2 Why do elements bond? Bonding results in greater stability
Through sharing electrons- covalent Through transfer of electrons- ionic Compounds have different properties than elements Sodium Chloride vs. Sodium and Chlorine

3 Covalent Bonds Covalent Bonds- sharing of electrons to become stable
Results in a molecule- 2 or more atoms covalently bonded Occurs between 2 nonmetals Have relatively low melting points so often liquid or gas at room temperature No ions, so do not conduct if dissolved in water Single Covalent bond- sharing of 2 electrons Longest and weakest of the 3 covalent bonds Double Covalent bond- sharing of 4 electrons Triple Covalent bond- sharing of 6 electrons Shortest and strongest

4 Covalent bonding Fluorine has seven valence electrons (but would like to have 8) F

5 F F Covalent bonding Fluorine has seven valence electrons
A second atom also has seven F F

6 F F Covalent bonding Fluorine has seven valence electrons
A second atom also has seven By sharing electrons… F F

7 F F Covalent bonding Fluorine has seven valence electrons
A second atom also has seven By sharing electrons… F F

8 F F Covalent bonding Fluorine has seven valence electrons
A second atom also has seven By sharing electrons… F F

9 F F Covalent bonding Fluorine has seven valence electrons
A second atom also has seven By sharing electrons… F F

10 F F Covalent bonding Fluorine has seven valence electrons
A second atom also has seven By sharing electrons… F F

11 F F Covalent bonding …both end with full orbitals
Fluorine has seven valence electrons A second atom also has seven By sharing electrons… …both end with full orbitals F F

12 F F Covalent bonding Fluorine has seven valence electrons
A second atom also has seven By sharing electrons… …both end with full orbitals F F 8 Valence electrons

13 F F Covalent bonding Fluorine has seven valence electrons
A second atom also has seven By sharing electrons… …both end with full orbitals F F 8 Valence electrons

14 B. Covalent Bond covalent bonds result in discrete molecules NH3 H2O Cl2

15 Covalent Bonds

16 Covalent Bonds

17 Covalent Bonds

18 Covalent Bonds

19

20 Multiple Bonds Sometimes atoms share more than one pair of valence electrons. A double bond is when atoms share two pairs of electrons (4 total) A triple bond is when atoms share three pairs of electrons (6 total)

21 Dot diagram for Carbon dioxide
CO2 - Carbon is central atom ( more metallic ) Carbon has 4 valence electrons Wants 4 more Oxygen has 6 valence electrons Wants 2 more C O

22 Carbon dioxide Attaching 1 oxygen leaves the oxygen 1 short, and the carbon 3 short C O

23 Carbon dioxide Attaching the second oxygen leaves both of the oxygen 1 short, and the carbon 2 short O C O

24 Carbon dioxide The only solution is to share more O C O

25 Carbon dioxide The only solution is to share more O C O

26 Carbon dioxide The only solution is to share more O C O

27 Carbon dioxide The only solution is to share more O C O

28 Carbon dioxide The only solution is to share more O C O

29 O C O Carbon dioxide The only solution is to share more
Requires two double bonds Each atom can count all the electrons in the bond O C O

30 O C O Carbon dioxide The only solution is to share more
Requires two double bonds Each atom can count all the electrons in the bond 8 valence electrons O C O

31 O C O Carbon dioxide The only solution is to share more
Requires two double bonds Each atom can count all the electrons in the bond 8 valence electrons O C O

32 O C O Carbon dioxide The only solution is to share more
Requires two double bonds Each atom can count all the electrons in the bond 8 valence electrons O C O

33 N H C H C N HCN has a triple bond! H needs 1 electron
C needs 4 electrons N needs 3 electrons Bond between H and C is a single bond Bond between C and N is a triple bond Single bonds 1 pair shared Double bonds 2 pairs shared Triple bonds 3 pairs shared C N N H C

34 B. Covalent Bond Nonpolar Covalent Bond e- are shared equally
usually identical atoms

35 + - B. Covalent Bond Polar Covalent Bond
e- are shared unequally between 2 different atoms results in partial opposite charges + -

36 B. Covalent Bond Nonpolar Polar Ionic View Bonding Animations.

37 Polar vs. Nonpolar

38

39 Video! Ionic and Covalent Bonding.

40 C. Comparison Chart IONIC COVALENT transferred from metal to nonmetal
shared between nonmetals Electrons Melting Point high low Soluble in Water yes usually not yes (solution or liquid) Conduct Electricity no crystal lattice of ions, crystalline solids molecules, odorous liquids & gases Other Properties

41 Metallic bonding: The bonding between atoms within metals
Metallic bonding: The bonding between atoms within metals. The sharing of many free electrons. Copyright © 2010 Ryan P. Murphy

42

43 Remember: Covalent – Sharing an Electron many of the SPONCH elements.

44 Remember: Covalent – Sharing an Electron many of the SPONCH elements. Ionic – Opposite charges + / -

45 Remember: Covalent – Sharing an Electron many of the SPONCH elements. Ionic – Opposite charges + / - Metallic – Many electrons

46

47

48 Metallic

49 Metallic

50 Metallic Ionic

51 Metallic Ionic

52 Covalent Metallic Ionic

53 Covalent Metallic Ionic

54 Chemical Formulas Chemical formula- used to tell us how many of each element are in a compound Consists of element symbols and subscripts Water has 2 hydrogen atoms and 1 oxygen atom

55 Chemical Formulas SiO2 silicon- 1 Oxygen-2 C12H22O11
Carbon- 12 Hydrogen-22 Oxygen-11 N2O Nitrogen- 2 Oxygen-1

56 Ionic Compounds Ionic compound - composed of cations and anions
Metal (cation) & nonmetal (anion) OR metal & polyatomic ion Polyatomic Ions- groups of atoms that are covalently bonded and collectively have a charge Examples of polyatomic ions: SO42- PO43-

57 Ionic Compounds Ionic compound - composed of cations and anions
Metal (cation) & nonmetal (anion) OR metal & polyatomic ion Neutral overall Total positive charge = total negative charge Solid crystals at room temperature Melt only at very high temperatures Ionic Bond: The electrostatic forces that hold ions together in ionic compounds

58 Properties of Ionic Compounds
7.2 Properties of Ionic Compounds The orderly arrangement of component ions produces the beauty of crystalline solids. The beauty of crystalline solids, such as these, comes from the orderly arrangement of their component ions.

59 Sodium Chlorine Sodium Chloride
CLICK FOR ANIMATION OF IONIC and COVALENT BONDING

60 Writing Lewis Dot Structures for covalent compounds
Count up total number of valence electrons Determine the central atom C is often the central atom For now, the single atom will be the central atom Bond atoms to satisfy the octet rule first Fill in valence electrons If all atoms are not stable, you’ll need to try double or triple bonds If you have extra electrons, put them on the central atom For more detailed rules:

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