Lewis Dot Symbols for Representative Elements

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1 CHEM Section 4 Guest Instructor: Prof. Elizabeth Gaillard Fall 2011 Lewis Dot Symbols for Representative Elements Principal Types of Chemical Bonds: Ionic and Covalent Ionic bond - a transfer of one or more electrons from one atom to another Forms attractions due to the opposite charges of the atoms Covalent bond - attractive force due to the sharing of electrons between atoms Some bonds have characteristics of both types and not easily identified as one or the other 1

2 Ionic Bonding Representative elements form ions that obey the octet rule Ions of opposite charge attract each other creating the ionic bond When electrons are lost by a metal and electrons are gained by a nonmetal Each atom achieves a Noble Gas configuration 2 ions are formed; a cation and anion, which are attracted to each other Ionic Bonding Consider the formation of NaCl Na + Cl NaCl Sodium has a low ionization energy it readily loses this electron Na Na + + e - When sodium loses the electron, it gains the Ne configuration Chlorine has a high electron affinity When chlorine gains an electron, it gains the Ar configuration.. : Cl.. e : Cl :.... Essential Features of Ionic Bonding Atoms with low I.E. and low E.A. tend to form positive ions Atoms with high I.E. and high E.A. tend to form negative ions Ion formation takes place by electron transfer The ions are held together by the electrostatic force of the opposite charges Reactions between metals and nonmetals (representative elements) tend to be ionic 2

3 Ion Arrangement in a Crystal As a sodium atom loses one electron, it becomes a smaller sodium ion When a chlorine atom gains that electron, it becomes a larger chloride ion Attraction of the Na cation with the Cl anion forms NaCl ion pairs that aggregate into a crystal Covalent Bonding Let s look at the formation of H 2 : H + H H 2 Each hydrogen has one electron in its valance shell If it were an ionic bond it would look like this: H H H H : However, both hydrogen atoms have an equal tendency to gain or lose electrons Electron transfer from one H to another usually will not occur under normal conditions Instead, each atom attains a noble gas configuration by sharing electrons H H H : H Each hydrogen atom now has two electrons around it and attained a He configuration The shared electron pair is called a Covalent Bond 3

4 Covalent Bonding in Hydrogen Features of Covalent Bonds Covalent bonds form between atoms with similar tendencies to gain or lose electrons Compounds containing covalent bonds are called covalent compounds or molecules The diatomic elements have completely covalent bonds (totally equal sharing) H 2, N 2, O 2, F 2, Cl 2, Br 2, I : F F: : F: F: Each fluorine is surrounded by 8 electrons Ne configuration Examples of Covalent Bonding.... 2H O H : O : H.... 2e from 2H 2e for H 6e from O 8e for O 4H H... C H : C : H H 4e from 4H 2e for H 4e from C 8e for C 4

5 Polar Covalent Bonding and Electronegativity The Polar Covalent Bond Ionic bonding involves the transfer of electrons Covalent bonding involves the sharing of electrons Polar covalent bonding - bonds made up of unequally shared electron pairs somewhat positively charged.... H F : H : F : The electrons spend more time with fluorine This sets up a polar covalent bond A truly covalent bond can only occur when both atoms are identical somewhat negatively charged These two electrons are not shared equally Polar Covalent Bonding in Water Oxygen is electron rich = - Hydrogen is electron deficient = + This results in unequal sharing of electrons in the pairs = polar covalent bonds Water has 2 covalent bonds 5

6 Electronegativity Electronegativity - a measure of the ability of an atom to attract electrons in a chemical bond Elements with high electronegativity have a greater ability to attract electrons than do elements with low electronegativity Consider the covalent bond as competition for electrons between 2 positive centers The difference in electronegativity determines the extent of bond polarity Electronegativities of Selected Elements The most electronegative elements are found in the upper right corner of the periodic table The least electronegative elements are found in the lower left corner of the periodic table electronegativity increases electronegativity increases Electronegativity Calculations The greater the difference in electronegativity between two atoms, the greater the polarity of their bond Which would be more polar, a H-F bond or H-Cl bond? H-F = 1.9 H-Cl = 0.9 The HF bond is more polar than the HCl bond 6

7 Naming Compounds and Writing Formulas of Compounds Nomenclature - the assignment of a correct and unambiguous name to each and every chemical compound Two naming systems: ionic compounds covalent compounds Formulas of Compounds A formula is the representation of the fundamental compound using chemical symbols and numerical subscripts The formula identifies the number and type of the various atoms that make up the compound unit The number of like atoms in the unit is shown by the use of a subscript Presence of only one atom is understood when no subscript is present Ionic Compounds Metals and nonmetals usually react to form ionic compounds The metals are cations and the nonmetals are anions The cations and anions arrange themselves in a regular three-dimensional repeating array called a crystal lattice Formula of an ionic compound is the smallest whole-number ratio of ions in the substance 7

8 Writing Formulas of Ionic Compounds from the Identities of the Component Ions Determine the charge of each ion Metals have a charge equal to group number Nonmetals have a charge equal to the group number minus eight Cations and anions must combine to give a formula with a net charge of zero It must have the same number of positive charges as negative charges Predict Formulas Predict the formula of the ionic compounds formed from combining ions of the following pairs of elements: 1. sodium and oxygen 2. lithium and bromine 3. aluminum and oxygen 4. barium and fluorine Writing Names of Ionic Compounds from the Formula of the Compound Name the cation followed by the name of the anion A positive ion retains the name of the element; add the anion suffix -ide 8

9 Writing Names of Ionic Compounds from the Formula of the Compound If the cation of an element has several ions of different charges (as with transition metals) use a Roman numeral following the metal name Roman numerals give the charge of the metal Examples: FeCl 3 is iron(iii) chloride FeCl 2 is iron(ii) chloride CuO is copper(ii) oxide Common Nomenclature System Use-ic to indicate the higher of the charges that ion might have Use-ous to indicate the lower of the charges that ion might have Examples: FeCl 2 is ferrous chloride FeCl 3 is ferric chloride Stock and Common Names for Iron and Copper Ions 9

10 Common Monatomic Cations and Anions Monatomic ions - ions consisting of a single charged atom Polyatomic Ions Polyatomic ions - ions composed of 2 or more atoms bonded together with an overall positive or negative charge Within the ion itself, the atoms are bonded using covalent bonds The positive and negative ions will be bonded to each other with ionic bonds Examples: NH + 4 ammonium ion SO 2-4 sulfate ion Common Polyatomic Cations and Anions 10

11 Name These Compounds 1. NH 4 Cl 2. BaSO 4 3. Fe(NO 3 ) 3 4. CuHCO 3 5. Ca(OH) 2 Writing Formulas of Ionic Compounds from the Name of the Compound Determine the charge of each ion Write the formula so that the resulting compound is neutral Example: Barium chloride: Barium is +2, Chloride is -1 Formula is BaCl 2 Determine the Formulas from Names Write the formula for the following ionic compounds: 1. sodium sulfate 2. ammonium sulfide 3. magnesium phosphate 4. chromium(ii) sulfate 11

12 Covalent Compounds Covalent compounds are typically formed from nonmetals Molecules - compounds characterized by covalent bonding Not a part of a massive three-dimensional crystal structure Exist as discrete molecules in the solid, liquid, and gas states Naming Covalent Compounds 1. The names of the elements are written in the order in which they appear in the formula 2. A prefix indicates the number of each kind of atom Naming Covalent Compounds 3. If only one atom of a particular element is present in the molecule, the prefix mono- is usually omitted from the first element Example: CO is carbon monoxide 4. The stem of the name of the last element is used with the suffix ide 5. The final vowel in a prefix is often dropped before a vowel in the stem name 12

13 Name These Covalent Compounds 1. SiO 2 2. N 2 O 5 3. CCl 4 4. IF 7 Writing Formulas of Covalent Compounds Use the prefixes in the names to determine the subscripts for the elements Examples: nitrogen trichloride NCl 3 diphosphorus pentoxide P 2 O 5 Some common names that are used: H 2 O water NH 3 ammonia C 2 H 5 OH ethanol C 6 H 12 O 6 glucose Provide Formulas for These Covalent Compounds 1. nitrogen monoxide 2. dinitrogen tetroxide 3. diphosphorus pentoxide 4. nitrogen trifluoride 13

14 3.3 Properties of Ionic and Covalent Compounds Physical State Ionic compounds are usually solids at room temperature Covalent compounds can be solids, liquids, and gases Melting and Boiling Points Melting point - the temperature at which a solid is converted to a liquid Boiling point - the temperature at which a liquid is converted to a gas Physical Properties Melting and Boiling Points Ionic compounds have much higher melting points and boiling points than covalent compounds A large amount of energy is required to break the electrostatic attractions between ions Ionic compounds typically melt at several hundred degrees Celsius Structure of Compounds in the Solid State Ionic compounds are crystalline Covalent compounds are crystalline or amorphous having no regular structure Physical Properties Solutions of Ionic and Covalent Compounds Ionic compounds often dissolve in water, where they dissociate - form positive and negative ions in solution Electrolytes - ions present in solution allowing the solution to conduct electricity Covalent solids usually do not dissociate and do not conduct electricity - nonelectrolytes 14

15 Comparison of Ionic vs. Covalent Compounds Composed of Electrons Physical state Dissociation Boiling/Melting Ionic Metal + nonmetal Transferred Solid / crystal Yes, electrolytes High Covalent 2 nonmetals Shared Any / crystal OR amorphous No, nonelectrolytes Low Drawing Lewis Structures of Molecules and Polyatomic Ions Lewis Structure Guidelines 1. Use chemical symbols for the various elements to write the skeletal structure of the compound The least electronegative atom will be placed in the central position Hydrogen and halogens occupy terminal positions Carbon often forms chains of carbon-carbon covalent bonds Lewis Structure Guidelines 2. Determine the number of valence electrons associated with each atom in the compound Combine these valence electrons to determine the total number of valence electrons in the compound Polyatomic cations, subtract one electron for every positive charge Polyatomic anions, add one electron for every negative charge 15

16 Lewis Structure Guidelines 3. Connect the central atom to each of the surrounding atoms using electron pairs Next, complete octets of all the atoms bonded to the central atom Hydrogen needs only two electrons Electrons not involved in bonding are represented as lone pairs Total number of electrons in the structure must equal the number of valence electrons in step 2 Lewis Structure Guidelines 4. Count the number of electrons you have and compare to the number you used If they are the same, you are finished If you used more electrons than you have, add a bond for every two too many you used Then, give every atom an octet If you used less electrons than you have.see later exceptions to the octet rule 5. Recheck that all atoms have the octet rule satisfied and that the total number of valance electrons are used Drawing Lewis Structures of Covalent Compounds Draw the Lewis structure of carbon dioxide, CO 2 Draw a skeletal structure of the molecule 1. Arrange the atoms in their most probable order C-O-O and/or O-C-O 2. Find the electronegativity of O=3.5 & C= Place the least electronegative atom as the central atom, here carbon is the central atom 4. Result is the O-C-O structure from above 16

17 : : : : : : Drawing Lewis Structures 5. Find the number of valence electrons for each atom and the total for the compound 1 C atom x 4 valence electrons = 4 e - 2 O atoms x 6 valence electrons = 12 e - 16 e - total 6. Use electron pairs to connect the C to each O with a single bond O : C : O 7. Place electron pairs around the atoms : O : C : O : This satisfies the rule for the O atoms, but not for C : : Drawing Lewis Structures of Covalent Compounds 8. Redistribute the electrons moving 2 e - from each O, placing them between C:O C::O::C 9. In this structure, the octet rule is satisfied This is the most probable structure Four electrons are between C and O These electrons are share in covalent bonds Four electrons in this arrangement signify a double bond 10. Recheck the electron distribution 8 electron pairs = 16 valence electrons, number counted at start 8 electrons around each atom, octet rule satisfied Lewis Structures of Polyatomic Ions Prepare Lewis structures of polyatomic ions as for neutral compounds, except: The charge on the ion must be accounted for when computing the total number of valence electrons 17

18 Lewis Structure of Polyatomic Cations Draw the Lewis structure of ammonium ion, NH + 4 Draw a skeletal structure of the molecule 1. Ammonium has this structure and charge: 2. The total number of valence electrons is determined by subtracting one electron for each unit of positive charge 1 N atom x 5 valence electrons = 5 e - 4 H atoms x 1 valence electron = 4 e electron for +1 charge = -1 e - 8 e - total 3. Distribute these 8 e - around the skeletal structure Lewis Structure of Polyatomic Anions Draw the Lewis structure of carbonate ion, CO 2-3 Draw a skeletal structure of the molecule 1. Carbon is less electronegative than oxygen This makes carbon the central atom Skeletal structure and charge: 2. The total number of valence electrons is determined by adding one electron for each unit of negative charge 1 C atom x 4 valence electrons = 4 e - 3 O atoms x 6 valence electron = 18 e negative charges = 2 e - 24 e - total 3. Distribute these e - around the skeletal structure Lewis Structure of Polyatomic Anions Draw the Lewis structure of carbonate ion, CO Distributing the electrons around the central carbon atom (4 bonds) and around the surrounding O atoms attempting to satisfy the octet rule results in: 5. This satisfies the octet rule for the 3 oxygen, but not for the carbon 6. Move a lone pair from one of the O atoms to form another bond with C 18

19 Lewis Structure, Stability, Multiple Bonds, and Bond Energies Single bond - one pair of electrons are shared between two atoms Double bond - two pairs of electrons are shared between two atoms Triple bond - three pairs of electrons are shared between two atoms Very stable H : H.... N N or or H - H N N.... O :: O or O O Bond energy - the amount of energy required to break a bond holding two atoms together triple bond > double bond > single bond Bond length - the distance separating the nuclei of two adjacent atoms single bond > double bond > triple bond Lewis Structures and Resonance Write the Lewis structure of CO 3 2- If you look around you, you will probably see the double bond put in different places In some cases it is possible to write more than one Lewis structure that satisfies the octet rule for a particular compound 19

20 .... : O : : O : : O : : :: : : O : C :: O : O : C : O : : O :: C : O : Experimental evidence shows all bonds are the same length, meaning there is not really any double bond in this ion None of theses three Lewis structures exist, but the actual structure is an average or hybrid of these three Lewis structures Resonance - two or more Lewis structures that contribute to the real structure Lewis Structures and Exceptions to the Octet Rule 1. Incomplete octet - less then eight electrons around an atom other than H Let s look at BeH 2 1 Be atom x 2 valence electrons = 2 e - 2 H atoms x 1 valence electrons = 2 e - total 4 e - Resulting Lewis structure: H : Be : H or H Be H Odd Electron 2. Odd electron - if there is an odd number of valence electrons, it is not possible to give every atom eight electrons Let s look at NO, nitric oxide It is impossible to pair all electrons as the compound contains an ODD number of valence electrons N - O 20

21 Expanded Octet 3. Expanded octet - an element in the 3rd period or below may have 10 and 12 electrons around it Expanded octet is the most common exception Consider the Lewis structure of PF 5 Phosphorus is a third period element 1 P atom x 5 valence electrons = 5 e - 5 F atoms x 7 valence electrons = 35 e - 40 e - total Distributing the electrons results in this Lewis structure Lewis Structures and Molecular Geometry: VSEPR Theory Molecular shape plays a large part in determining properties and shape VSEPR theory - Valance Shell Electron Pair Repulsion theory Used to predict the shape of the molecules All electrons around the central atom arrange themselves so they can be as far away from each other as possible to minimize electronic repulsion VSEPR Theory In the covalent bond, bonding electrons are localized around the nucleus The covalent bond is directional, having a specific orientation in space between the bonded atoms Ionic bonds have electrostatic forces which have no specific orientation in space 21

22 Molecular Bonding Bonding pair = two electrons shared by 2 atoms H:O Nonbonding pair = two electrons belonging to 1 atom, pair not shared N: Maximal separation of bonding pairs = 4 corners of a TETRAHEDRON A Stable Exception to the Octet Rule Consider BeH 2 Only 4 electrons surround the beryllium atom These 2 electron pairs have minimal repulsion when located on opposite sides of the structure Linear structure having bond angles of 180 Another Stable Exception to the Octet Rule Consider BF 3 There are 3 shared electron pairs around the central atom These electron pairs have minimal repulsion when placed in a plane, forming a triangle Trigonal planar structure with bond angles of

23 Basic Electron Pair Repulsion of a Full Octet Consider CH 4 There are 4 shared electron pairs around the central Carbon Minimal electron repulsion when electrons are placed at the four corners of a tetrahedron Each H-C-H bond angle is Tetrahedron is the primary structure of a full octet Basic Electron Pair Repulsion of a Full Octet with One Lone Pair Consider NH 3 There are 4 electron pairs around the central Nitrogen 3 pairs are shared electron pairs 1 pair is a lone pair A lone pair is more electronegative with a greater electron repulsion The lone pair takes one of the corners of the tetrahedron without being visible, distorting the arrangement of electron pairs Ammonia has a trigonal pyramidal structure with 107 angles Basic Electron Pair Repulsion of a Full Octet with Two Lone Pairs Consider H 2 O There are 4 electron pairs around the central Oxygen 2 pairs are shared electron pairs 2 pairs are lone pairs All 4 electron pairs are approximately tetrahedral to each other The lone pairs take two of the corners of the tetrahedron without being visible, distorting the arrangement of electron pairs Water has a bent or angular structure with bond angles 23

24 Predicting Geometric Shape Using Electron Pairs Basic Procedure to Determine Molecular Shape 1. Write the Lewis structure 2. Count the number of shared electron pairs and lone pairs around the central atom 3. If no lone pairs are present, shape is: 2 shared pairs - linear 3 shared pairs - trigonal planar 4 shared pairs - tetrahedral 4. Look at the arrangement and name the shape Linear Trigonal planar Bent Trigonal pyramid Tetrahedral More Complex Molecules Consider dimethyl ether Has 2 different central atoms: oxygen carbon CH 3 (methyl group) has tetrahedral geometry (like methane) Portion of the molecule linking the two methyl groups would bond angles similar to water 24

25 Determine the Molecular Geometry PCl 3 SO 2 PH 3 SiH 4 Lewis Structures and Polarity A molecule is polar if its centers of positive and negative charges do not coincide Polar molecules when placed in an electric field will align themselves in the field Molecules that are polar behave as a dipole (having two poles or ends) One end is positively charged the other is negatively charged Nonpolar molecules will not align themselves in an electric field Determining Polarity To determine if a molecule is polar: Write the Lewis structure Draw the geometry Use the following symbol to denote the polarity of each bond Positive end of the bond, the less electronegative atom Negative end of the bond, more electronegative atom attracts the electrons more strongly towards it 25

26 Practice Determining Polarity Determine whether the following bonds and molecules are polar: 1. Si Cl 1. O 2 2. H C 2. HF 3. C C 3. CH 4 4. S Cl 4. H 2 O Properties Based on Electronic Structure and Molecular Geometry Intramolecular forces attractive forces within molecules Chemical bonds Intermolecular forces attractive forces between molecules Intermolecular forces determine many physical properties Intermolecular forces are a direct consequence of the intramolecular forces in the molecules Solubility and Intermolecular Forces Solubility - the maximum amount of solute that dissolves in a given amount of solvent at a specific temperature Like dissolves like Polar molecules are most soluble in polar solvents Nonpolar molecules are most soluble in nonpolar solvents Does ammonia, NH 3, dissolve in water? Yes, both molecules are polar 26

27 Interaction of Water and Ammonia The - end of ammonia, N, is attracted to the + end of the water molecule, H The + end of ammonia, H, is attracted to the - end of the water molecule, O The attractive forces, called hydrogen bonds, pull ammonia into water, distributing the ammonia molecules throughout the water, forming a homogeneous solution Interaction of Water and Oil What do you know about oil and water? They don t mix Why? Because water is polar and oil is nonpolar Water molecules exert their attractive forces on other water molecules Oil remains insoluble and floats on the surface of the water as it is less dense Boiling Points of Liquids and Melting Points of Solids Energy is used to overcome the intermolecular attractive forces in a substance, driving the molecules into a less associated phase The greater the intermolecular force, the more energy is required leading to Higher melting point of a solid Higher boiling point of a liquid 27

28 Factors Influencing Boiling and Melting Points Strength of the attractive force holding the substance in its current physical state Molecular mass Larger molecules have higher m.p. and b.p. than smaller molecules as it is more difficult to convert a larger mass to another phase Polarity Polar molecules have higher m.p. and b.p. than nonpolar molecules of similar molecular mass due to their stronger attractive force Melting and Boiling Points Selected Compounds by Bonding Type 28

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