Covalent Bonding l l Between nonmetal atoms Share
Covalent Bonding l l Between nonmetal atoms Share valence electrons between atoms l Electron clouds overlap Ex: H 2 O CH 4 NH 3 CO 2
Electronegativity l Difference in EN smaller than in ionics and is usually < 1. 7 l Ex: HCl H = 2. 2 Cl = 3. 2 Difference = 1. 0
Bond Polarity Polar Bonds: l Have a difference in EN values (unequal sharing) l Ex: H EN=2. 2 Cl EN=3. 2
l Non. Polar Bond: no difference in EN values. (equal sharing)
Comparing Bond Types
Single, Double, Triple Bonds l Atoms can share single double or triple bonds between them. l Each bond represents a shared pair of electrons. l http: //youtu. be/1 wp. Dic. W_MQQ 3 pair here = 6 electrons!
Molecular Formulas Covalent compounds are molecules. l Made up of all nonmetals. l Molecular formulas: show actual number of atoms of each element present Ex: H 2 O 2 hydrogen atoms, 1 oxygen atom
l Ionic Compounds (SALTS) formula unit indicates simplest ratio of ions in the crystal structure l Covalent Compounds (MOLECULES) Na. Cl = 1: 1 ion ratio molecular formula indicates actual number of atoms present in molecule Formula Units vs. Molecules 7 minutes https: //www. youtube. com/watch? v=d. HWq. Je. Ss 8 ms CH 4 = 5 atoms in molecule
Structural Formulas of Molecules l Show the atoms are bonded together l Use “lines” to show covalent bonds l Dots show free electron pairs
Empirical Formulas l Show simplest whole number ratio of atoms or ions in the compound. Ex: Mg. Cl 2 1 : 2 ion ratio Al 2(SO 4)3 2 : 3 ion ratio NOTE: l All ionic compounds have empirical formulas
You can simplify some molecular formulas to make them empirical ratios Ex: C 6 H 12 O 6 Simplest ratio of atoms ______ C 6 H 6 Simplest ratio of atoms ______ CO 2 Simplest ratio of atoms ______
Naming Binary Covalent Compounds Prefix system indicates number of atoms Add “-ide” ending
Examples of Naming Covalents l Note: use “mono” prefix if only one of 2 nd element.
Drawing Covalent Molecules Lewis Structures
STEPS TO DRAW MOLECULE 1. Count total valence e- in the molecule 2. Draw molecule with single bonds between atoms then subtract these e- from total 3. Evenly distribute remaining e- in pairs to all atoms in molecule that still need e- 4. Check to see if all obey octet rule (Hydrogen is 2 e -) 5. If deficient, shift over free e- pairs to make double
l Draw NH 3 l Draw H 2 O l Draw CH 4
Crash Course Chemistry: Lewis Structures: (11 minutes) http: //www. youtube. com/watc h? v=a 8 LF 7 JEb 0 IA
Drawing Polyatomic Ions l Covalently bonded atoms with a group charge Add or subtract electrons from total valence depending on charge. Draw brackets around ion and indicate charge. l Ex: (SO 4) -2 l l 6 + 4(6) + 2 = 32 electrons
VSEPR and Molecular Shape l Assume valence electrons repel each other. l Molecule adopts 3 D geometry that minimizes this repulsion. l Valence Shell Electron Pair Repulsion (VSEPR) theory.
Predicting Molecular Geometries l l Draw Lewis structure Count total number of electron pairs around the central atom (both shared and unshared) Arrange electron pairs to minimize e-repulsion Multiple bounds count as one bonding pair
Molecular Shapes l Regents Shapes to Know: l Tetrahedral l Pyramidal l Bent l Linear
Is a Molecule Polar? l If the centers of negative and positive charge do not coincide, then the molecule is polar.
Look for Symmetry l Polar Molecules: l Have polar bonds and are not symmetrical l Positive l They l & negative “partial charges” don’t overlap have a “dipole moment” Nonpolar Molecules l Have nonpolar bonds OR l Have polar bonds and are symmetrical l Centers of positive & negative charge overlap
Example: In CO 2, the polarity of each C-O bond is cancelled because the molecule is linear. In H 2 O, the polar H-O bonds do not cancel because the molecule is bent.
l Tetrahedral l Has 4 atoms bonded (no free pairs)
Symmetry? Depends on what atoms are attached. Can be polar (asymmetrical) or nonpolar (symmetrical)
l Pyramidal l Three atoms bonded (one free pair)
All pyramids are asymmetrical. l These molecules are always POLAR! l
l Bent l Two atoms attached (2 free pair) The 2 free pair make it bent and not linear. These are always asymmetrical so are always polar. H 2 O
Hey, Water is Polar!!!!! Never forget this!!!
l Linear: 2 or 3 atoms in a line l Can be polar or nonpolar depending on type of bonding and symmetry l EX: Cl 2, O 2, N 2, HCl, CO 2
l Ex: Linear Symmetrical Molecules
Properties of Covalent Compounds Note: These properties can vary depending on if molecule is polar or not!
Melting Point Lower than Ionics l To melt, you are only separating the weak bonds between molecules (not within). l
Melting Point l Polar Molecules (dipoles/”mini-magnets”): l Have higher melting points than non-polars because they are harder to separate.
All these nonpolar diatomics have really low MP/BP
Solubility “Like Dissolves Like” l Polar Molecules dissolve in polar solvents as they are attracted to them l l like H 2 O, CHCl 3, NH 3 etc. Non-polar Molecules dissolve in non-polar solvents l like hexane, CCl 4
Oil and water don’t mix! l How does soap work?
Conductivity l Covalent Molecules do not conduct well as they do not form ions. l They l are “nonelectrolytes” Except Acids!!!! l Acids are covalently bonded but in water (aqueous) they will ionize and conduct current. l (Acids are not on this test)
Decompose l If the heat gets high enough covalent compounds will break down and decompose. l (Remember the lab, sugar melted first, then it burned and turned into black carbon)
Other Types of Covalent Bonds
Coordinate Covalent Bonding Covalent bond in which one of the bonding atoms donates both of the electrons to the bond. l The other atom donates nothing. l Ex: Forming Hydronium Ion
l To form this type of bond you must have: l. A molecule with a free pair of electrons l Something that needs to gain 2 electrons H+1
Ex: Forming Ammonium Ion
Network Solids Giant network of covalently bonded atoms. l Large macromolecules l Extremely strong structures l l Unusually high M. P. l Do not dissolve Diamonds are a giant network of carbon atoms.
Ex: C (s) (graphite, diamond, buckyball), Si. O 2 (quartz), Ge. O 2 “Buckyball”
Bonding in Pure Metals Hunting the elements: https: //www. youtube. com/watch? v=Yu 7 Sq 2 zj. BDc
Metallic Bonding l Happens in pure metals or alloys. l Ex: l Mg, Fe, Brass, Au, Ni, Cu “Delocalized” valence electrons move about between all the metal atoms. https: //www. youtube. com/watch? v=Oagr 9 x. MAmf. Y
Metallic Bonding Properties l Conducts heat and electricity very well Conducts as a solid too! l l l Does not dissolve in solvents Malleable and Ductile Relatively high melting point. l Higher MP than covalents. l Similar MP to most ionics (4: 30) https: //www. youtube. com/watch? v=v. Ou. FT uvf 4 qk (4: 13) https: //www. youtube. com/watch? v=S 08 qd OTd 0 w 0 Properties 2: 00: http: //www. youtube. com/watch? v=srx. NJ 03 W_q. M What is a metal? 4: 30 https: //www. youtube. com/watch? v=Xto 88 g Mm. Dzw
Metallic Bonding l http: //www. drkstreet. com/resources/metallic-bonding-animation. swf
Comparing Properties Melting Point/Boiling Point l Conductivity l Solubility l
EXTRA VIDEO LINKS FOR FUN AND LEARNING l Ionic vs. Covalent Bonding l l http: //youtu. be/Qqjc. Cvz. Wwww http: //youtu. be/yjge 1 Wd. CFPs l Electronegativity l Bonding Dance Party l l http: //youtu. be/BCYr. NU-7 Sf. A Isn’t it Ionic l l http: //youtu. be/w. WUYHHo-z. B 0 Dancin Queen (Ionic/Covalent Bonds) l l http: //www. youtube. com/watch? v=w. BCmt_p. JTRA It’s a chemical bond baby” l l http: //youtu. be/Kj 3 o 0 Xvh. Vq. Q http: //youtu. be/rw. Rtfrg. JL 5 E Dogs teaching Chem (Ionic vs. Covalent Bonds (2 min) l https: //www. youtube. com/watch? v=_M 9 khs 87 x. Q 8
GOOD FOR REVIEW l l Crash Course Chemistry: Polarity of Molecules http: //www. youtube. com/watch? v=PVL 24 HAesnc Dipole Moment: https: //www. khanacademy. org/science/organicchemistry/gen-chem-review/electronegativitypolarity/v/dipole-moment
Types of Chemical Formulas Tutorial l https: //www. youtube. com/watch? v=Y 2 e. HJr. ZI t 0 k l Naming Tutorial (Ionic & Covalent) l https: //www. youtube. com/watch? v=9 XUs. OLa z 3 z. Y l Writing Formulas Tutorial (Ionic & Covalent) l https: //www. youtube. com/watch? v=16 agv. Z 8 K 2 e. M l
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