Transcription of STRUCTURE & BONDING - knockhardy.org.uk
1 STRUCTURE & BONDINGI ntroductionThe physical properties (boiling point, conductivity, strength) of a substancedepend on its STRUCTURE and type of BONDING . BONDING determines the OF BONDBond typesCHEMICAL BONDS ionic (or electrovalent) (strong bonds) COVALENT DATIVE COVALENT (or COORDINATE) METALLICPHYSICAL BONDS van der Waals forces - weakest (weak bonds) dipole-dipole interaction hydrogen bonds - strongestFORMATION OF IONS FROM ATOMSP ositive ions known as cations formed when electrons are removed from atoms are smaller than the original atom the energy associated with the process is known as the ionisation energy (IE).
2 1st energy required to remove one mole of electrons (to infinity) from the onemole of gaseous atoms to form one mole of gaseous positive Na(g) > Na+(g) + e or Mg(g) > Mg+(g) + e There are as many ionisation energy steps as there are electrons in the +(g) > Mg2+(g) + e and so onNotes successive ionisation energies get larger as the proton : electron ratio increases. 3rd ionisation energy > 2nd ionisation energy > 1st ionisation energy big jumps in value occur when electrons are removed from shells nearer the nucleus - less shielding so more energy is needed to overcome the attraction.
3 1st 500 kJmol-12nd 900 kJmol-1 3rd 6000 kJmol-1 The 3rd electron must have been in a shell nearer the nucleus - In Group 2 if the IE values are very high, covalent BONDING is favoured ( beryllium). STRUCTURE and BONDING 1F321 KNOCKHARDY PUBLISHING 2008 Negative ions known as anions larger than the original atom due to electron repulsion in outer shell formed when electrons are added to atoms energy is released as the nucleus pulls in an electron this energy is the electron energy change when one mole of gaseous atoms acquires one mole of electrons (from infinity) to form one mole of gaseous negative ions.
4 Cl(g) + e > Cl (g) and O(g) + e > O (g)The greater the effective nuclear charge (ENC) the easier an electron is pulled STRUCTURE and BondingF321 KNOCKHARDY PUBLISHING 2008 out equations representing the .. 1st of Br 2nd of Br 1st of N out equations representing the .. 1st of Li 1st of Al 1st of F 2nd of Na 2nd of F 3rd of Li 4th of Al 21st of Rb which group would you find elements with the following successive s ?
5 577182027401160014800 4183070460058607990 736145077401050013600 THE ionic (OR ELECTROVALENT) BONDF ormationIonic bonds tend to be formed between elements whose atoms need to lose electrons to gain the nearest noble gas electronic configuration (ngec) and thoseneeding to gain electrons. Electrons are transferred from one atom to the Na > Na+ + e and Cl + e > Cl Chloride 1s2 2s2 2p6 3s1 1s2 2s2 2p6 1s2 2s2 2p6 3s2 3p5 1s2 2s2 2p6 3s2 3p6or 2,8,1 2,8 2,8,7 2,8.
6 8 1 electron is transferred from the 3s orbital of sodium to the 3p orbital of chlorine both species end up with an octet of electrons in their outer shell the resulting ions are held together in a crystal lattice by electrostatic attractionMgCl2 Because magnesium atoms have two outer shell electrons they can combine withtwo chlorine atoms by the transfer of one electron to each atom to form one Mg2+and two Cl ions STRUCTURE and BONDING 3F321 KNOCKHARDY PUBLISHING 2008Na (2,8,1)Cl (2,8,7)17+11+Na (2,8)+Cl (2,8,8)-11+17+ Show how the following combine to form ionic compounds.
7 A) Na and O b) Mg and O c) Mg and F d) Al and O17+17+12+17+12+17+Mg (2,8,2) 2 x Cl (2,8,7)2 x Cl-Mg+2 Predicting the charge on an ionSimple ionss an p blockCan be predicted from their position in the Periodic Tableelements Groupelectrons in outer shellcharge on ion 11 + 2 22+ 333+ 662- 77 -d blockTransition elements (eg iron) can have more than one ion. The use of aelementsRoman numeral identifies which ion is (II)Fe2+iron(III)Fe3+Complex ionsSome groups possess a charge.
8 Nitrate NO3 sulphateSO42-carbonateCO32- ammoniumNH4+ SOME COMMON IONS4 STRUCTURE and BondingF321 KNOCKHARDY PUBLISHING 2008hydrogen H+chloride Cl sodium Na+bromide Br potassium K+iodideI 1lithium Li+hydroxideOH rubidiumRb+nitrateNO3 caesium Cs+nitrite NO2 copper(I) Cu+hydrogencarbonateHCO3 silver(I) Ag+hydrogensulphate HSO4 ammonium NH4+calcium Ca2+sulphate SO42-barium Ba2+sulphite SO32-magnesium Mg2+sulphide S2- 2zinc Zn2+oxideO2-iron(II)Fe2+carbonate CO32-cobalt Co2+copper(II) Cu2+manganese(II) Mn2+ 3aluminium Al3+phosphate PO43-iron(III)
9 Fe3+GIANT ionic LATTICES BONDING oppositely charged ions held in a regular 3-d lattice by electrostatic attraction ions pack together in the most efficient way so there is little wasted space the arrangement of ions in a lattice depends on the relative sizes of the ions NaCl CsCl The Na+ ion is small enough relative to the Cl ion to fit in the spaces so that bothions occur in every Na+ is surrounded by 6 Cl (co-ordination number = 6) and each Cl issurrounded by 6 Na+ (co-ordination number = 6).
10 Physical properties of ionic compoundsmelting ptVery highA large amount of energy must be put in to overcome thestrong electrostatic attractions and separate the brittleAny dislocation leads to layers moving and similarly chargedions being next to each other. The repulsion splits the do not conduct electricity when solid - ions are held strongly in the lattice conduct electricity when molten or in aqueous solution - the ions become mobile and conduction takes insoluble in non-polar solvents soluble in water as it is a polar solvent and stabilises the separated ions energy is needed to overcome the electrostatic attraction and separate the ions stability is achieved by polar water molecules surrounding the ionsDiagramStructure and