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Chemical Bonds. Chemical Bond. The interaction b/ atoms/ions that results in a decrease in potential energy of the system which hence becomes stable. Electron -dot (Lewis) s ymbols. Valence electrons are shown as dots around the symbols of the atoms .
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Chemical Bond • The interaction b/ atoms/ions that results in a decrease in potential energy of the system which hence becomes stable.
Electron -dot(Lewis) symbols Valence electrons are shown as dots around the symbols of the atoms. 1 2 13 14 15 16 17 18 H He: LiBe B C N O : F :Ne : Na Mg AlSiPS:Cl :Ar :
Types of bonds • Ionic • Covalent • Metallic
IONIC BONDThe Electrostatic attraction forces happen b/ metal and nonmetal ions as a results of exchanging electrons.
Properties of ionic compounds -have crystalline structure formed of repeating units). -ions stay together as a result of attraction b/ oppositely charged ions. -The 3D structure of the crystalline is named as :lattice.”
Properties of ionic compounds • Hard, brittle. • Relatively high melting and boiling points • Do not conduct the electricity when solid but do when molten or in aqueous solution (since the ions are free to move). • Are more soluble in water than other solvents
Ex. • Write • Lewis (electron-dot) formula • Chemical formula of the compound formed b/ Mg and O.
Ex. • Write • Lewis (electron-dot) formula • Chemical formula of the compound formed b/ Al and S.
NAMING IONIC COMPUNDS (P.100) • Name of the metal+ ionic name of the nonmetal Name of the metal+ name of the polyatomic ion
NAMING IONIC COMPUNDS Compounds Made with Variable Charged Metals Name of the metal (oxidation state of the metal in Roman numeral) + ionic name of the nonmetal Name of the metal (oxidation state of the metal in Roman numeral) + name of the polyatomic ion
NAMING IONIC COMPOUNDS • NaBr • FeCl2 • Mg3N2 • Al4C3 • CuO • LiH • K3P • PbO2 • CuS
NAMING IONIC COMPOUNDS • BaCO3 • Zn(NO3)2 • Rb3PO4 • Fe(OH)3 • AgHCO3 CoI2 • CaSO4 NiCr2O7 • CuOH CrCrO4 • MnO2 KMnO4 • K2C2O4 Sr(ClO4)2
COVALENT BOND:Happens b/ nonmetal atoms as a result of sharing electrons.
Many interactions are present: • The attraction forces b/ the electrons and nucleus • Repulsion forces b/ the electrons • Repulsion forces b/ the nuclei
NONPOLAR COVALENT BOND: The shared electrons are attracted w/ an equal power by both atoms in the bonding. H2, Cl2,Br2,Cl2,O2,N2
Oxygen Atom Oxygen Atom Oxygen Molecule (O2)
H2, Cl2:
POLAR COVALENT BOND: The shared electrons are NOT attracted w/ an equal power by the atoms in the bonding. H2O,HF, HCl,NH3,CH4
Electronegativity and bond polarity • The sharing of electrons in HF is unequal: the fluorine atom attracts electron density away from the hydrogen(the bond is thus a polar covalent bond) • The H-F bond can thus be represented as: The ‘ δ+' and ' δ -' symbols indicate partial positive and negative charges. The arrow indicates the "pull" of electrons off the hydrogen and towards the more electronegative atom
The bond gets polar as the difference in the electronegativities of the atoms bonded increases.
Naming covalent compounds • (prefix to indicate the number of 1st nonmetal+name of 1st nonmetal) + (prefix to indicate the number of 2nd nonmetal+ ionic name of second nonmetal)
Naming covalent compounds • For you own information, here is some other generally useful information: • Roman Numerals • I = 1; II = 2; III = 3; IV = 4; V = 5; VI = 6; VII = 7. • Prefixes: • mono = 1; di = 2; tri = 3; tetra = 4; penta = 5; hexa = 6; hepta = 7; octa = 8.
Naming covalent compounds • N2O3 • N2 O5 • Cl3F • Cl2O7 • Cl2O • PCl3 • SF4 • P2S3
Naming compounds including polyatomic ions only • Name of 1st polyatomic ion + Name of 2nd polyatomic ion
Naming covalent compounds • (NH4)3PO4 • (NH4)2SO4 • (NH4)2S • NH4Cl • (NH4)2CO3
Dublet(duet) Rule:Completion of valence electron number to 2 when atoms make bonds in order to reach the stability of He (H,Li). Octet Rule:Completion ve number to 8 when the atoms make a bond in order to reach the stability of Noble gases. (O,N,F,C,Cl,Br,I,P,S…)
•• •• Cl H H Cl • • + • • •• •• Bond formation Notice that each atom has one unpaired electron!!!!!
•• H Cl • • •• Lone pair electrons Bonding electrons Cov. Bond and lone (non-bonding) electrons: LEWIS formula!!!
WARNING!!!!!!!!!!!! All diatomic molecules have a linear geometry…
Number of lone pair electrons around the central atom: 0 Example: CO2 HCN 1)Linear geometry