Download - Ch 12 Chemical Bonding
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Ch 12 Chemical Bonding
Bonds formed betw atoms depend on e- config & attraction the atoms have for e-’s
- varies systematically
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12.1 Electronegativity
• - the relative tendency of an atom to attract e-’s to itself when it’s bonded to another atom– Values assigned to elems on the basis of
experiments
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12.1 Electronegativity
• Electroneg diff betw atoms incr as bond strength incr
• Electroneg.’s are influenced by same factors that affect ionization energies & e- affinities– Follow the same trends– Fr – lowest electroneg, F – highest
• \ in bonds w/ F, bonding e-’s are drawn closer to F than the other atom
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12.1 Electronegativity
• In a rxn betw 2 elems, relative attraction for e-’s determines how they react– Electroneg scale determines this attraction
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12.2 Bond Character
• If electroneg diff is high, atoms transfer e-’s to form ionic bonds– Held together by electrostatic (+ & - ) attraction
• If electroneg diff is small, atoms share e-’s to form covalent bonds.– Amt of transfer depends on electroneg diff betw 2
atoms• If electroneg diff < 1.67, for covalent bonds• If electroneg diff > or = 1.67, form ionic bonds
– All bonds have some charact. of both ionic & covalent
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12.3 Ionic Bonds
• When e-’s are tranferred from 1 atom to the other, (+) & (-) ions are formed– When brought close together, the attractive force
betw them holds the ions together• Ionic Bond – the electrostatic force that holds
2 ions together due to differing charges
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12.3 Ionic Bonds
• Ionic comps have high melting pts, can conduct electricity in molten state, are usually soluble in water, & usually crystallize as sharply defined particles.
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12.4 Ionic Radii
• - found from experimental data & simplifying assumptions
• Internuclear Distance – in a crystal – found by adding the radii of 2 ions in a comp– Can also be used as bond length in a molec
• Or bond axis
• Radii are not fixed values– 1. fuzziness of e- cloud– 2. effect ea ion has on neighboring ions
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12.5 Covalent Bonds
• - shared pair of e-’s• Covalent comps have low melting pts, do not
conduct electricity, & are brittle• Molecule – particle resulting from 2 or more
atoms bonding covalently• Bond Axis – line joining the nuclei of 2 bonded
atoms in a molecule• Bond Angle – angle betw 2 bond axes in a molec.
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12.5 Covalent Bonds
• Bond Length – distance betw nuclei along bond axis– Not fixed – bond acts like a stiff spring– Atoms vibrate as though bonds were strectching &
shrinking– Bonds also undergo bending, wagging, &
rotational vibrations• All cause bond angles & lengths to vary
–\ bond lengths & angles are average values
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12.5 Covalent Bonds
• Chemists use infra-red spectroscopy to determine molecular structure & vibrations of molecules.– Using IR spectrum, can compute bond strengths &
determine much about how & where specific atoms are bonded in a molec.
• Microwave radiation affects rotation of molecs– Can also determine bond lengths & bond angles
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12.6 Covalent Radii
• It’s possible to determine internuclear dist betw 2 bonded atoms– For ICl it is 230– Cl2 is 199, I2 is 266 – ½ of ea of these may be used
for the radii of ea atom & their sums are the bond dist of ICl.
• Covalent radii are only approximate– Useful in predicting bond lengths in molecs
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12.7 Polyatomic Ions
• - consist of 2 or more atoms covalently bonded together and possessing an overall charge– Form ionic bonds like other ions– Most are negative (exception – NH4)
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12.8 Van der Waals Radii
• There is a certain minimum distance maintained betw atoms which are not bonded to ea other– E- clouds of ea atom repel ea other– When free atoms or molecs collide, they act as if
they had a rigid outer “shell”.• The “shell” limits how close other atoms or molecs may
come– Bonded atoms are closer together than unbonded
atoms.
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12.8 Van der Waals Radii
• The radius of this imaginary rigid shell is called Van der Waals Radius– The minimum dist maintained betw nonbonded
atoms or atoms on adjacent molecs– Larger than covalent radius of bonded atoms
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12.9 Summary of Radii
• Studied 4 types of radii:1. Atomic2. Ionic3. Covalent4. Van der Waals
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12.9 Summary of Radii
• Atomic Radii – measured in 2 ways– 1. Meas on individual atoms in gaseous state• Atoms unaffected by neighboring atoms
– 2. Meas on atoms in metallic crystals• Neighboring atoms have large effect
– These 2 methods won’t give the same results
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12.9 Summary of Radii
• Ionic Radii – differ from atomic radii bec of loss or gain of e-’s
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12.9 Summary of Radii
• Covalent & Van der Waals Radii – vary greatly bec of wide range of atoms which can be bonded together
• Covalent radii is expected to be less than atomic radii– When an atom is bonded to more than 1 other atom, e-
cloud may be distorted• May make covalent radius larger than atomic radius
– Same thing happens w/ Van der Waals radii• Radii are used to predict internuclear dist betw
atoms.
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12.10 Special Properties of Metals
• Metals form crystals in which ea metal atom is surrounded by 8 or 12 neighboring metal atoms– Form when atoms crowd together and outer level
orbitals overlap– E-’s can easily move from 1 atom to another • These e-’s are called delocalized electrons.• Not held in 1 place – “float” around the crystal
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12.10 Special Properties of Metals
• If an electric field is applied, e-’s will flow thru the metal, creating electric current
• Delocalized e-’s interact w/ light creating luster.
• Metalic Bond – constituted by the delocalized e-’s holding metallic atoms together
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12.10 Special Properties of Metals
• Properties of metals are determined by the # of outer e-’s available– Group 1 - 1 e- available - soft– Group 2 - 2 e-’s available - harder– Transition metals – d e-’s take part in metallic bond
• Many are very hard & stron• Groups 3-6 – 3 to 6 delocalized e-’s• Groups 7-10 - 6 delocalized e-’s
– Not all d e-’s are involved in the bond
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12.10 Special Properties of Metals
• It is possible to strengthen some metals by combining them w/ others to form alloys.