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Heinemann CHEMISTRY 5TH EDITION VCE Units 1 & 2 Written for the VCE Chemistry Study Design 2016 –2021 Chris Commons Warrick Clarke Louise Lennard Patrick Sanders Vicky Ellis Penny Commons Lanna Derry Pat O’Shea Robert Sanders Elizabeth Freer Bob Hogendoorn Maria Porter Drew Chan Simon Gooding Elissa Huddart Bob Ross Erin Bruns Heinemann CHEMISTRY 5TH EDITION VCE Units 1 & 2 COORDINATING AUTHORS Chris Commons Penny Commons AUTHORS Warrick Clarke Lanna Derry Bob Hogendoorn Elissa Huddart Louise Lennard Pat O’Shea Maria Porter Bob Ross Patrick Sanders Robert Sanders CONTRIBUTING AUTHORS Drew Chan Erin Bruns Vicky Ellis Elizabeth Freer Simon Gooding Pearson Australia (a division of Pearson Australia Group Pty Ltd) 707 Collins Street, Melbourne, Victoria 3008 PO Box 23360, Melbourne, Victoria 8012 www.pearson.com.au Copyright © Pearson Australia 2016 (a division of Pearson Australia Group Pty Ltd) First published 2016 by Pearson Australia 2020    2019    2018    2017    2016 10   9   8   7   6   5   4   3    2    1 Reproduction and communication for educational purposes The Australian Copyright Act 1968 (the Act) allows a maximum of one chapter or 10% of the pages of this work, whichever is the greater, to be reproduced and/or communicated by any educational institution for its educational purposes provided that that educational institution (or the body that administers it) has given a remuneration notice to Copyright Agency Limited (CAL) under the Act. For details of the CAL licence for educational institutions contact Copyright Agency Limited (www.copyright.com.au). Reproduction and communication for other purposes Except as permitted under the Act (for example any fair dealing for the purposes of study, research, criticism or review), no part of this book may be reproduced, stored in a retrieval system, communicated or transmitted in any form or by any means without prior written permission. All enquiries should be made to the publisher at the address above. This book is not to be treated as a blackline master; that is, any photocopying beyond fair dealing requires prior written permission. Heinemann Chemistry 1 5e Chemistry 11 Lightbook Series Consultant: Malcolm Parsons Project lead: Misal Belvedere Publishers: Cameron Salton and Rachel Davis Publishers: Laura Tubino Project Managers: Jane Sunderland and Hannah Turner Project Managers: Tamara Piriois and Elizabeth Gosman Lead Development Editor: Vicky Chadfield Development Editor: Fiona Cooke and Amanda Langerak Development Editors: Carly Milroy, Sofija Stefanovic and Eliza Collins Content Coordinator: Haeyean Lee Editor: Catherine Greenwood Copyright and Picture Editor: Lisa Woodland Designer and Cover Designer: Anne Donald Lead Editor: Mahtab Dubash Typesetter: Norma van Rees Digital Editor: Averil Robertson Copyright and Picture Editors: Justin Lim, Alice McBroom, Amirah Fatin Editors: LearningMate Desktop Operators: Rob Curulli and Jennifer Johnston Illustrators: Pearson India, Dimitrios Prokopis, Guy Holt and Wendy Gorton Printed in Australia by the SOS + Print Media Group National Library of Australia Cataloguing-in-Publication entry Heinemann Chemistry 1: VCE units 1 & 2 / Chris Commons [and fifteen others]. Edition: 5th edition. ISBN 9781488611247 (paperback) Includes index. Target Audience: For secondary school age. Subjects: Chemistry--Textbooks. Victorian Certificate of Education. Other Creators/Contributors: Commons, C., author. Dewey Number: 540 Pearson Australia Group Pty Ltd ABN 40 004 245 943 Some of the images used in Heinemann Chemistry 1 might have associations with deceased Indigenous Australians. Please be aware that these images might cause sadness or distress in Aboriginal or Torres Strait Islander communities. Heinemann CHEMISTRY 5TH EDITION Writing and Development Team We are grateful to the following people for their time and expertise in contributing to the Heinemann Chemistry 1 project. Malcolm Parsons Elizabeth Freer Bob Ross Publishing Consultant Teacher Teacher Series Consultant Contributing Author Author Chris Commons John Gilson Patrick Sanders Teacher Educator Teacher Coordinating Author Reviewer Author Penny Commons Simon Gooding Robert Sanders Lecturer Teacher Education Consultant Coordinating Author Contributing Author Author Drew Chan Bob Hogendoorn Teacher Senior Consultant Subject Lead (Print) Author The Chemistry Education Contributing Author Association was formed Elissa Huddart in 1977 by a group of Erin Bruns Teacher chemistry teachers from Teacher Author secondary and tertiary institutions. It aims to promote the teaching of Associate Subject Lead (Print) Contributing Author Louise Lennard chemistry, particularly in secondary Teacher schools. The CEA has established a tradition of providing up-to-date Donna Chapman Author text and electronic material and Laboratory Technician Contributor Nicole Lukins support resources for both students and teachers and professional Education Consultant development opportunities for Warrick Clarke Contributor teachers. Science Communicator Author Pat O’Shea CEA offers scholarships and Teacher bursaries to students and Lanna Derry Author teachers to further their interest Teacher in chemistry. CEA supports STAV Author Maria Porter with sponsorship for the Chemistry Teacher Conference, Science Drama Awards Vicky Ellis Author and The Science Talent Search. Teacher Contributing Author Unit 1: How can the diversity of materials be explained? AREA OF STUDY 1 AREA OF STUDY 2 How can knowledge of elements How can the versatility of explain the properties of matter? non-metals be explained? Chapter 1 The atomic nature of matter 1 Chapter 6 Materials made of molecules 141 1.1 Nanomaterials and nanoparticles 2 6.1 Properties of non-metallic substances 142 1.2 The atomic world 8 6.2 Covalent bonding 146 1.3 Inside atoms 12 Chapter 6 review 154 1.4 Classifying atoms 15 Chapter 7 Intermolecular forces 155 1.5 Electronic structure of atoms 18 7.1 Shapes of molecules 156 1.6 Electronic configuration and the 7.2 Properties of covalent molecular shell model 22 substances 161 1.7 The Schrödinger model of the atom 27 7.3 Types of intermolecular forces 167 Chapter 1 review 33 Chapter 7 review 175 Chapter 2 Electron arrangements and Chapter 8 Carbon lattices and carbon the periodic table 35 nanomaterials 177 2.1 The periodic table 36 8.1 Carbon lattices 178 2.2 Trends in the periodic table—Part 1 42 8.2 Carbon nanomaterials 184 2.3 Trends in the periodic table—Part 2 47 Chapter 8 review 189 Chapter 2 review 51 Chapter 9 Organic compounds 191 Chapter 3 Metals 53 9.1 Crude oil as a source of raw materials 192 3.1 Properties of metals 54 9.2 Unsaturated hydrocarbons 201 3.2 Metallic bonding 60 9.3 Alcohols 209 3.3 Reactivity of metals 63 9.4 Carboxylic acids 215 3.4 Extraction of iron from its ore 66 9.5 Esters 220 3.5 Modifying metals 71 9.6 Determining formulas of organic 3.6 Metallic nanomaterials 77 compounds 225 Chapter 3 review 80 Chapter 9 review 230 Chapter 4 Ionic bonding 83 Chapter 10 Polymers 233 4.1 Properties and structures of 10.1 Types of polymers 234 ionic compounds 84 10.2 Designing polymers for a purpose 243 4.2 Using the ionic bonding model to Chapter 10 review 255 explain properties 88 4.3 Formation of ionic compounds 94 Area of Study 2—Review 257 4.4 Chemical formulas of simple ionic compounds 99 AREA OF STUDY 3 4.5 Writing formulas of more complex ionic compounds 102 Research investigation Chapter 4 review 105 Chapter 11 Research investigation 261 11.1 Planning a research investigation 263 Chapter 5 Quantifying atoms and molecules 107 11.2 Communicating scientifc ideas 273 5.1 Masses of particles 108 11.3 Writing a scientific report 280 5.2 Introducing the mole 118 Chapter 11 review 284 5.3 Molar mass 124 5.4 Percentage composition and empirical formulas 129 Chapter 5 review 134 Area of Study 1—Review 137 Unit 2: What makes water such a unique chemical? AREA OF STUDY 1 AREA OF STUDY 2 How do substances interact How are substances in water with water? measured and analysed? Chapter 12 Properties of water 291 Chapter 17 Water sample analysis 429 12.1 Essential water 292 17.1 The availability of drinking water 430 12.2 Heat capacity 297 17.2 Water quality 435 12.3 Latent heat 301 Chapter 17 review 441 Chapter 12 review 305 Chapter 18 Analysis for salts in water 443 Chapter 13 Water, the universal solvent 307 18.1 The source of salts in water 444 13.1 Water as a solvent 308 18.2 Gravimetric analysis 453 13.2 Water as a solvent of molecular 18.3 Calculations involving excess reactants 461 substances 315 18.4 Determining salt concentration by 13.3 Water as a solvent of ionic compounds 321 colorimetry and UV–visible spectroscopy 465 13.4 Precipitation reactions 326 18.5 Determining concentration by atomic Chapter 13 review 332 absorption spectroscopy 475 Chapter 18 review 484 Chapter 14 Aqueous Solutions (This chapter supports Area of Study 2) 335 Chapter 19 Analysis for organic compounds 14.1 Solubility 336 in water 489 14.2 Crystallisation 343 19.1 Organic contaminants in water 490 14.3 Concentration of solutions 348 19.2 Principles of chromatography 497 14.4 Molar concentration 352 19.3 High-performance liquid chromatography 502 14.5 Dilution 356 Chapter 19 review 511 Chapter 14 review 359 Chapter 20 Volumetric analysis 515 Chapter 15 Acid–base reactions in water 361 20.1 Sources of acids and bases in water 516 15.1 Introducing acids and bases 362 20.2 Standard solutions 522 15.2 Strength of acids and bases 369 20.3 Calculations involving acids and bases 525 15.3 Acidity of solutions 373 20.4 Volumetric analysis 529 15.4 Dilution of acids and bases 381 20.5 Calculations in volumetric analysis 534 15.5 Reactions of acids and bases 387 Chapter 20 review 541 15.6 Ocean acidity 395 Area of Study 2—Review 543 Chapter 15 review 400 Chapter 16 Redox reactions in water 403 16.1 Introducing redox reactions 404 AREA OF STUDY 3 16.2 The reactivity series of metals 414 Practical investigation 16.3 Corrosion 419 Chapter 21 Practical investigation 551 Chapter 16 review 423 21.1 Designing and planning investigations 553 Area of Study 1—Review 425 21.2 Conducting investigations and recording and presenting data 560 21.3 Discussing investigations and drawing evidence-based conclusions 568 Chapter 21 review 573 APPENDIX 575 GLOSSARY 603 INDEX 611 How to use this book Heinemann Chemistry 1 5th edition Heinemann Chemistry 1 5th Edition has been written to the new VCE Chemistry CHAPTER Ionic bonding Chapter opener Study Design 2016–2021. The book covers Chapter opening Units 1 and 2 in an easy-to-use resource. Rocks, plates, molten lava and electrical insulators belong to a group of substances pages link the called ionic compounds. At the end of this chapter, you will be able to explain the Explore how to use this book below. sIotrnuicc tcuorme apnodu npdros paerret imesa odfe t hbeys teh ec ocmhepmouicnadl sc.ombination of metallic and non- Study Design to the metallic elements. You will see that the properties of ionic compounds are a direct result of the bonding between the particles within these compounds. chapter content. Key The writing of chemical formulas and naming ionic compounds are other important skills that you will learn in this chapter. Key knowledge knowledge addressed Extension • Cpreoofiemnrtem, ndocinffe etprore onthpceeeir rti nifeo ser lmoefca titoriioncnaic,l nccooamntudprueoc uotifnv idiotsyn (iicnb rbsitootllneiddn ieansngsd ,a hlniaqdru dcidnry esssttsaa,tl ehssitg)r uhwc mittuherlet,ing in the chapter is including limitations of representations. Experimental determination of the Extension material goes beyond the • fTahceto urss easff oefc itoinngic c cryosmtapl ofournmdsation of ionic compounds clearly listed. core content of the Study Design. It VCE Chemistry Study Design extracts © VCAA (2015); reproduced by permission. is intended for students who wish to expand their depth of understanding. Highlight Focus on important information such as key definitions, formulas Chemistry in and summary points. Action Chemistry in Action place chemistry in an applied situation or ATOMIC RADIUS relevant context. Atomic radius is a measurement used for the size of atoms. It is the distance CHEMISTRY IN ACTION fthroem d isthtaen nceu cbleetuws eteon tthhee vnaulecnlecie o sfh tewllo ealetocmtros nosf. tIht ei ss aumsuea elllye mmeenats uthraetd abrey bhoanlvdinedg The sting of a bee These refer to the together. Figure 2.2.6 depicts the atomic radii of many of the main group elements. mane iansdui rcdeaAo tt tihnooeomnit r os hrfaa avdteioi msdhiiracer scpitlzylye ., Oisn teo mm ebetoahsuoundrd eoa ftr hioeebs tdaainsintdai nnsgoc eait t boisem tnwicoe tre apndo nisis,u iacbnlleedi totohf earteofmorse TbbhayP nete ahfnnoetr aysmslt reutuhtlhcaeta iufrno rcoreh a psateherna,o cCtwyt7nelH r eii1tns4ht OiFac2ni g,o oiudsar otetehu ,5e rC.. 3cI7t.Ho 4ims1. 4 apOlo2s,uo in sad rp ethhpearerto sgeminvoetensd e nature and practice (cid:25)in(cid:22) m(cid:124)(cid:82)o(cid:75)(cid:69)l(cid:81)ec(cid:79)u(cid:71)le(cid:86)(cid:84)s(cid:71). (cid:85)F o(prm e)x aampaprlte. ,T ihne a r hayddiurso goef ne amcohl ehcyudlreo (gHe2n) athtoem tw ios ansusculemi eadr et o be rcehleemasiecda l bpyr obdeuecse wdh beyn atnh eayn simtinagl .o Ar ipnhseercot mthoante c hisa an ges of chemistry, half of that distance, i.e. 37 pm. the behaviour of another animal or insect of the same species. Bees release pentyl ethanoate as an alarm EXTENSION praerhleeeaar,o swmehdoe nnreee a ttrho etah gleer rosttu ionptg hb eserhh baafevte eassn tddoe adfetatnrnasgicveters.l yoT, thchehe arc robgmeinepgso atuonn dtdh eis applications of Triads and octaves sthtien gdienfge.n Ssmiveo krees mpoansskes athned aclaalrmmi npgh ethroem boeense,, ainlltoewrrinugp ting chemistry and the IottTtmm(nhrhafhi teeoaOa1etoi srhdn rom8esi esentc2 , hrii thkcs9eoteehn ea,fr2rm meomGcsD3 w.tae poii,e cvsnrrwbdeasmo ei he lpa3 tralpihteeec9neramrih)on’ tn sc ipaeeie hsrltrensi eeo’tr tsthmlmohtsa iitf eetu irciis oscivmoaat. ne umvdHJ,e e lasodb ear etha uwsolbcagsetmaae neemlsl esn ila ceoe.sl ri dfWsntwr h altritoe itnhewulhifggaemgaihecussated,tm ni isv wnggi’oenstra deDo tsg(ihru auormaaptobmlonmsueem drppa‘oetisinorasci indtttoa ae me dfesp rxbstsa ohan’ies.utr cotsaWemwt tsle7iyesic. t) ieeoh Stuanhdnimonn e dttt d .hhhe ai uSaeaevpmo ct eoob hdrmtt’aa asihousga seaifmenss rtt i youoh ot iwmfmsef soi’ec.s mcm1imb(s1he. 0oaaAE.eee0 sslasqmke× ss c×euct ihhe1oa aus1 penftl0lt se0 iedtp–m mso6–rt e6 os mige on1n g alct3o aoa)ynea l0 rfloeal b c.ope.mf0ce uptehp ehlagpna e ass stotnmsntyteriti lon ntyo otueaglghfl n–t t ese1pheui,t, t eahsnyournniea unnsttolnmoiegyenao -l ag wtbttaesehh etoett oeehrhirds u kaeroi ss eein fnw fal qoroap nieuaarttedhlim ateonbet lanht tue htys(s eolCoeleah 7df e s7i bnHptt.a. ih 7e 1nK =bema4 gn× OehnmM oit eio2l,1wvlw )nia e g0ei at.nr–e eb9ag n lmm e tsh o el. ntFcsFhartuIiGoennmrUmg eb.Rb f eEose err5ce c.ao3 tel.fic4o qp unuPel aean5ntlt.e t2ytydoll, eyeu4toths.h6uainan k×ngona o t1toahe0wt eie1s 5 ftam.oh craomotlm etuhcpluoaeu leNnnsdu = mirne nl bee ea×asr ce Nohdf A w b.p hTeaeehrn et sib cteilneesgs is aadsnesvdoe tclhoiapet mehdies nitsots rouicfe asl However, Dobereiner’s theory was limited. Not all elements could be i5n0c leuldeemde innt st rtioa dwso. rBku wt ihthis awt otrhki sw taims eq.u ite remarkable given he had fewer than You are now in a position to count atoms by weighing. When you use the mole, concepts and ideas. einle Dtmheece anadttsoe mso rlia cat elwlore, wiEg nmhgto liovsfeh em clehemnemte fniostrst .tJ hNoehe nwd ilAsaclneodxvsae’n rlyda eworf oNnf eeowwc ltaeanlvedemss ewnnoattssi. c peudb ali sphaetdte rn pmaurWSlttiiocpolmelriskee ed pcd rab eElycs xeu6anl.am0tt 2iipon ×ln eas 1 5 sr0.ue32qb.32u.s tiiarsen s cyueoc uhis taoe q cuuaslaecl u btlooa tttihoh neo .fn tuhme fboerrm ouf lams onle =s oMmf tahned s unb =st aNNnAc.e Four years later in 1869, Mendeleev, working independently, published his CHEMFILE Avogadro’s number WCOoRrEk eCdH AeRxaGmEple 2.2.1 Awvhoegna adtroom’ss n, uiomnbse arn rde amllyo liesc, uelsepse acriea lslyo ChemFile Determine the core charge of an atom of aluminium. s•m a6ll..0 H2e ×re 1 a0r2e3 sgoramines e oxfa smapnlde,s ptloa cheedlp : ChemFiles include a side by side, would stretch from the Thinking Working Earth to the Sun and back about DipDUneees raettieen otrr dhmmaietciio nn ntmeeau b mttohhlefbee te ahcnrsoe u o armefe lr ebeeclmehfeercaer troenrgfnot e,ecn .u elses. ctiontr go nthse TTa1thhso2eem2 tash t2ooi2rfm dpa 6ils3cuh smne2ul3iln mpiisu1b .mtehr e h ovafas al e1lun3mc pei nrsoihutoemnll sii sna 1nth3di. s 1T a3ht eoermleefc.o tTrrheo,en arsen. •• 6A(cid:25)eysAhev.(cid:124) u0(cid:79)ceaoso2rrwt(cid:75)syrm(cid:78) (cid:78)na× (cid:75)ts(cid:81)pl oiie1(cid:80)anu c0r(cid:2) t(cid:86)toeFe2(cid:75)oa(cid:79)ni3rg cdaocu(cid:71)h fo(cid:85)rdw etu(cid:16)6eho n.p5ue0tt. il2h2ndm .g ×o6ta a f1r 1 kws900eho0 2mbu203i.l al dmlkil olmcoinlowl!i votsienm r es FmdIeGaprUtshRh mEo f5a 9l.l20o.0w6 skO mwno!eu mldo cleo voerr 6A.u0s2t r×a l1ia0 t2o3 a rinafnogrem oaft iionnte arensdt irnega l- Cnuomre bcehra orgf ein =n enru-smheblel re loefc ptrroontosns – are 10 inner shell electrons, which in this atom is world examples. CHAPTER 2 | ELECTRON ARRANGEMENTS AND THE PERIODIC TABLE AREA OF STUDY 1 | HOW CAN KNOWLEDGE OF ELEMENTS EXPLAIN THE PROPERTIES OF MATTER? Worked examples Worked examples are set out in steps that show thinking and working. This enhances student understanding by linking underlying logic to the relevant calculations. Each Worked example is followed by a Try Yourself: Worked example. This mirror problem allows students to immediately test their understanding. Fully worked solutions to all Try Yourself: Worked examples are available on Heinemann Chemistry 5th Edition ProductLink. vi Chapter review Each chapter finishes with a set of higher order questions to test students’ ability to apply the knowledge gained from the chapter. Section summary Each section includes a summary to assist students consolidate key points and 1.7 Review Chapter review SUMMARY KEY TERMS concepts. • The shell model of the atom was unable to fully • Each orbital can hold a maximum of two electrons adsorption element nanomaterial explain the properties of atoms and a new model (Table 1.7.3). alpha particle emission spectrum nanoparticle was needed to describe the electron behaviour in atom energy level nanoscale proton atoms. TABLE 1.7.3 atomic number excited state nanoscience quantised •••• bsecsbtTTOAhpuonhheenranrabe hee frtocrs iao otSSgraeivauusbyccr eltnaneis hh tlrdo adearrloofööa.svil fun bddeo cwnsglreaiisinn abdmlnt lggvwhi e tteeeibdaehlisrrate l eh s nsr mma . ir,un n enepoocun gdt,lddc eaeh doeelruree glldcs a uymcppe nsi udrrna.daoep r jadpweyof.sio rhca g satis rceet horhhddueer lgapttelhhsineeo.aa- d nedTtt lhiieseonmuelcf e sbetscsrunsputobrhsanboiseco snhmlehnlsse ea a lalllysl rs e ••• sTuhS1234behs e4hllse-lsl utob sthheel lh iisS1223334444g sspspdspdfuhlobewsshte erel lnisne regnye srguO1131351357yb rstbhhiateanlll.s t hine s ubshell 2N1aBccceeehoolllt oaeeeomvehcccnmamtttCNtrpolrrrw eioooomiaocmcnonnnsn uat totav oanh lasdne ttpdesthereeeipoytceclt rmrr wlhtiaylohanob taeoltorocsr fklfahl oo amcleglantlsyoaito.dt twiint cseni enroagfnt leoennp graetrhpggiimmmmmtossirrioanoaaoooce itnistsudlnnlosetestenaeteap c onsmltrdtnueo ito nuleomsenamdtlea ni cebbctoneuyeme lretrewgtoyre s (express nnnnnooop111cruaeouuebt120urnbtcceeii lltolotteerera tEtUtTdmoou rehhlwgxiunsnscceeopaiolh ny essltn an gataiu iso btnstmoolhlh oemtweeboglh speyle yrelb e sotom?hft ehWpe nrnhhotuay tbm ovoernrob s 2mew. 0rhi nonyqrsSssvvef eaaacuu unc eudmaallbbhoaeeltsineasrntonnri ?cöcnhotaatccotrduinenceernommilost nlsgiees nvciig hxlcntesmeoeaue cpprimtlnenthl earmnc pe orah(etilnoSnriealc ldsT ,innl aneeMeiutgclxoc)s pm lelau iesnq. uwTahhleys 3d-subshell, so the fourth shell accepts two electrons a 5 cm and not their mass number. • Sinc hearöcdhi nsugebrs hmeolld.el specify the number of electrons 3 bcZb i ont12ch2 koa mmxbidsmoer bpo UwVd elirg hatn. dW zhinatc porxoidpee rntya noof pzainrcti colxeisd e E1E3llee ccIenttlerr aooc tnnhriioyccnd sc rbotoegrn ueifinncg tiafuu ttorrheame to ,ia ofwt noahm tiuco shimsi ne islgne cttthhreoe n gs rshoheuenlllld mw siotlla dtthee?el nanoparticles makes them more suitable than zinc 14 Determine which shell the 30th electron of an atom oxide powder for use in sunscreen. would go into according to the rules for determining KEY QUESTIONS The atomic world SEaeccht sieocnti orne vfiineiswhe s with 1 eaEBLcilotehhrmo iuonemf n (t5 th( )3(ea) taotmomic sn ulimstbeedr.) 2us,3ing the shell model 1ussi2n2gs 2t2hpe1 subshell model 4I5n sidWaCtackhort ellohyaepa pmsyairpcs tgthaeosieofrr ny ,woem n ,cf tae mnhasDstire wtoablr anflooototagornelktlenr,oo n’otwpmsi.fn ri pnioa,c rgvht,eo e emdemnllii aeucstmdtmo iboe eb,o n unnenspt ed isano e obancdfoco, mcutrgorotooeg rltclddehetti,ec? nhou genxl reayt:sogt su eouwrnrelhf , ufeoortfr,h mer 1T156h eWfeab oSl erhcHC mathhaeter reliöinbsu dft omot inihlnsl eo (g(s 26wnhe))iaornm wgm neeo lioednfme btlher oaenc ftes ktl.ee hTtmseh. eean tatot otmhmaitc h naus manb eerl eocft reoancihc questions to test students’ CSohdloiurimne ((1117)) 67 Hano wat oarme ?protons, neutrons and electrons arranged in cde FAAlrluugomorniinn (ei1u 8(m9)) (13) Neon (10) 8 Compare the mass and charge of protons, neutrons f Nickel (28) understanding and ability PScoatansdsiiuumm ((2119)) C9 lasaAsnnidf ay etiolnemgct aoroft nocshm. rosmium can be represented by the 17 g Bromine (35) to recall the key concepts IBroronm (2in6e) (35) saby mDDbeettoeel rr mm5242 Ciinnree . itthse a ntoummibc enru omf ebleerc tarnodn sm, parsost onnusm abnedr. 18 ‘Doerbteitraml’i.ne the Schrödinger model of electronic 2 neutrons in the chromium atom. of the section. model and the subshell model of the atom? AREA OF STUDY 1 | HOW CAN KNOWLEDGE OF ELEMENTS EXPLAIN THE PROPERTIES OF MATTER? CHAPTER 1 | THE ATOMIC NATURE OF MATTER Area of Study review UNIT 1 • Area of Study 2 Each Area of Study finishes 14 Which one of the following alternatives correctly D H H H H Short-answer questions 25 Give a condensed structural formula (a semi-structural with a comprehensive set dF2e, sHcrFFi2 baensd t hCeH 3inFt?ermoleHcFular forces in puCrHe3 Fsamples of HC C O HC C O 21 Datwhnrheade w ntihn atemchrleu et dh soeterf uamthcnoteyul esrnecho uanolpef- be ei osaon cfpd htoih nloaegfr m tpoharoe il nrefsooc lnuolo-flep we oailnelnacgdrt .rc oponrmesd.p iGocuitv ned s cfabo rH4Bm-ueuexttlaaahnn)y -olf2 oi2c-ro, 2ael-cadicdihm oetf htyhle h feoplltoawnieng compounds. oinfc eluxadmin-gs tmyluel tqipulees ctihoonisc,e AB DfDfhooyiirrssdccppreeeeossrrg ssoaeiinnoondlnn yb onds DfhDfhooyyiirrssddccpprreeeeoossrrgg ssaaeeiinnoonnddnn bb oonnddss DfdaDfhootyiiiprrtssdrccppoareeleeocsserrtg –issaaoediinnoonnipddnn bo olen ds 17 IabABCt o cwnmheoodlameeusrcldl ptdtbinron yibeucg saemn stl de p eca moawonssnpedsudre irebburi nalrcheitgttu eit tvlltroedhiet n tyetee oiclsnglo se wmtthhhpeee otrshu obenlyridd ti’ hoss:neta icpte aorrt iccolevsa lienn t 22 acCbed ruCPSHCdiFCS2HeS32l 44 o il (petroleum) is an important resource to our 26 dePoa b rosbP2Tvehu,ri4rodetv- pe adamy t icmitnoeoeenlmnetistcnhp.igsyee lrt aehetmexuxprp-el1ae no-reafa nttouieovreenr so 1ff o0icr0 ee0 a(°scCoh li isod fn Hteh2eOed )ef odisl l to0ow° Cin g attuthoonng addteth eteaihrsxss etssterait snyntthld deseei tnoidurgf d kr qeeanusnnopetdwsso ltanetioopsd nepgds,le ry.a aiwtn d 1156 CDWcABCDpWsPeoo o hhgmllEEEEyyiimccttttvvphhhhDfDfhhiiooeonnaaaaii rrnssoouyynnnnccpptnneenlleeoo ee ssoeeaad,,llrr ,,fss ll opes coocpeiitn tooroHoffihthrolnnn hhyohtteap hhapoo onapneelalro n oediniHCfflsse,,looeo y ,ppllg arlmlle, oorri ovtpooewwehefDfhDfdatppo oorHChaiintyiiii?nlnaaprrtnssynda rccnnppggobacmrneeolee eoocresselesaerrtg,,el l– tiss,,laaoaOoe pprtdriippnneoo wnusnirropddrrnnri ooc.nboofno ppttgoppluaeeaan taanr Hbnnidennv ooousseeei llsslsie nhldigDfhDfdaosoo t yitwiiaprrtpsssdrccsppos aoree t leeocaihsseanrrtg – e issaawtoepdii snnoonniao?pddnn tsbo esolreinb dles 1189 DCABCDPTcfwcIIIIoABI ItooaI rh o o i lc tnrlelmehdhdloloTTTIIahoayroo l ffhhhoaeiiee wbnepewwggl paocnggneeebbt ecehhinaeehbtwnrr dlrrt r?yeepppreerr aiareecg enie rrieeoooInnnn ssec I rdcp sIlllssoocccean ooyyy r tdrooorhhff ltetammmffo ttieoeaff nsiicaeetttdbbnnan ge eeeeeolsnnLayurrsggemsrrrennniiaaDe cnni dpiidtiihoonnodennePssygg offuaccfn ddgg E psmlhhfscttttct y uo,hhete stte atiirrmaHeoenrnrimme eyrsovima mmrcggn s Dihneeppbppatet gr yigPopop a oooeeng( t h eLlfftEeermrlrluihtl hyyniaraaiaDrrtt gtne.mmhaaahhn attg Phrtuueatttaeenseh u uee E rrsps h durpeeerrpprro)o:eaa ef ee o oofcfcalgtddrsn itlhhhlleqcddcyie uuyysoaatnraamunuummieeunyt tiitiieew ynnrs.dnsettiee e stoo. ir gttprraid. (ooi n scmrlaaWccet l oo eaai hh amnosgfdrhm aatagsmelrpueiatiiemcnr pnneroctreahag eneetlaaalty errlg)eo(lnetima lHiearsfeordot rl turDeftd n d a hmrruePste eee gsgEo.i .esrr)re se ee.e 23 sabcdGabo ivcWiCCCiHHei i eHHr htutGph33yadCCr.eitvee H CHHiHeHHCCs nso2 eCa CtitnhlmHhH teie3 se2 i CnmHHHCCCC ono Hrocofi 2tgrleC euiaancHd cHHHC upe2ohlCu af o roHrcie lfr2.f H uCotsChurdHmebe3 sfuooOtHHlCCailall?no ocwfe in tbwHHHCguo ct hoamy mHHCdpriooxcutuanrrHdebs.o :n s 27 cbpaAbcd rm oADmdoMloDCtb••iDii iidmh qxfeo lrrro uemeoyaaaucnhobmbncEmcsaslcgwwwoieaadynxieeotedrtetoom cdrrp s lsttilr s ynaaaaebbwwllmuo wrleeuf ptan ,c ooogl oseehssgccabeouNio gnnhetetenruuaaet,slrrls e neHnnoee ltsllbiuutddeeweenn rac w e3ecca. giio tcs c,unhowosth ,xttpt taf hli.uulhcxxayri aus eaeesseoeiie rrnr n tddd srttaaato anse:odh.dhtieell otrn wx Oc ea yo d fftmggagimo ooronhmdnobirea nrr evosne teooa mmssy se,.ds, o f .lmn oto eCoeHwenuuitduftc rh2mn-ll 2uibmsHuraattbOese hh e ol2 dobe2effunteni,noo,rn nwies lt aia iarriss tdisaeg motewn a2a io eolrafnn mmie a entnfcmmgoah hem ehaeo mtoynmeeo.aan ldf,i eta ll,rnrmn oye lerc ma atyopbilcschumteob otgeruumcelcnreoele lmtol uieeileg sodsna nalv .atheone oh esamnnasnmpifnetan: ip iaan oo a odtetitgfl ryelh e es po oc.ctfeuhuu lagloeenhfs . A H H H H CD III, IaI nadn dII II IoInly H H H O H ii sEtxrpelnaginth w ahnyd t hpeo lbarointyd. s between ammonia B HHC HCOH OCHHHC H 20 noII I nane11 o00nm––a69 nammotemmmrieatlsre. ?Which of the following is equivalent to 24 eG ive CthHe3 sCCtHHru3CcHtu2 OraHl formula of each of the following nitrogen molecules or carbon dioxide molecules. C C C C IIIVI 1100––91 2m mm cao mHepxo-u1n-ednse. H O H O A I only b Propanoic acid C H H H H BC II I aanndd IVIV oonnlyly cd E2t-hmyelpthroyplparnoopaatne-2-ol C C C C D III and IV only e Pent-2-yne H OH H OH AREA OF STUDY 2 | HOW CAN THE VERSATILITY OF NON-METALS BE EXPLAINED? REVIEW QUESTIONS Answers Glossary Numerical answers and key short response answers are included at the Key terms are shown in bold and back of the book. Comprehensive answers and fully worked solutions for listed at the end of each chapter. all section review questions, Try Yourself: Worked examples, chapter review A comprehensive glossary at the questions and Area of Study review questions are provided via Heinemann end of the book includes and Chemistry 5th Edition ProductLink. defines all key terms. vii Heinemann Chemistry 1 5th edition Student Book CHeHinemEanMn ISTRY 5TH EDITION WVrSiCttutedEny f DoUre sthnigen iV t2C0Es1 C 61h –e2m &0i2s1 t2ry Heinemann Chemistry 1 5th Edition has been written to fully align with the VCE Chemistry Study Design 2016–2021. The series includes the very latest developments and applications of Chemistry and incorporates best practice literacy and instructional design to ensure the content and concepts are fully accessible to all students. CPehnrinsy C Coommmmoonnss WLBEaloainsbrsn rHaiac o HkDg ueCedrlnradydraokroetrn LPMBoaoautbr ii OsaRe’ oSP sLhoseerntaenrard PREDarorietbnwre iBcr Crtku h SSnaaasnnnddeerrss VESliimiczkaoybn eE Gtllhois oFdreinegr Pearson eBook 3.0 Pearson eBook 3.0 is the digital version of the student book. It retains the integrity of the printed page and is available online or offline on any device—PC/Mac, Android tablet, iPad. CHeHinemEanMn ISTRY Student Workbook 2ND EDITION Student Workbook Heinemann Chemistry 1 Student Workbook 2nd edition Elissa Huddart V••••• WWACPCrrooreauirEtacrktt sesoiecn hfa U eoSfloe utaruttn scldti thnyiveei 3i ttVa iseCnsksdEi lal eC n1dshdsee evmi n&neivtlsoieatp srl2 mytki gSneaotnutwtid owlyne osdDrgekess ihsgetnue dt2sy0 1n6o t–e2s0 21 will give students the edge in preparing for all forms of assessment. New content has been written to ensure the workbook is fully aligned to the 2016–2021 Chemistry Study Design. Key features include study notes, worksheets, practical activities and guidance, and assessment practice and opportunities. ProductLink CHeHineEmanMn ISTRY Heinemann Chemistry 5th Edition ProductLink provides 5TH EDITION comprehensive support for teachers and students completely free of charge. ProductLink includes comprehensive answers and worked solutions to all student book questions, tests, quizzes and practice exams, teaching programs, risk assessments and more. Pearson Digital Browse and buy at pearson.com.au Access the ProductLink at pearsonplaces.com.au

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