KNOCKHARDY PUBLISHING

Slides:



Advertisements
Similar presentations
Angstrom Care 1www.AngstromCare.com Angstrom Care Halogens II.
Advertisements

Quiz on the halogens.
Explain, in terms of electrons, why potassium reacts more violently than sodium. (3 marks) bigger atom or outer shell electron further from nucleus or.
KNOCKHARDY PUBLISHING
AN INTRODUCTION TO GROUP VII KNOCKHARDY PUBLISHING 2008 SPECIFICATIONS.
11.0 The Halogens Text book p166 to AQA AS Specification LessonsTopics 1 How and why does the atomic radius and electronegativity change in Gp.
Chemical Properties HL3-3.ppt.
Properties of an Atom In this presentation you will:
Displacement of halogens
Halogens. Elements in the Halogen Group Group 7 Elements Similar reactions to with other elements because they all gain one electron. All react with.
The Halogens Group VII. Known as halogens – Derived from Greek, Salt maker – React with metals to form salts Astatine doesn’t really exist for a long.
Title: Lesson 3 Chemical Properties Learning Objectives: –Understand the following trends in reactivity: Alkali metals with water Alkali metals with halogens.
Aim: What are the Properties of Groups and how does the atomic radius change across a period and down a group ? DO Now: 1. Write down the electron configuration.
KNOCKHARDY PUBLISHING
CHEMICAL BONDING A guide for GCSE students 2010 SPECIFICATIONS KNOCKHARDY PUBLISHING.
Group 7, the Halogens.
Be prepared to answer the questions what are: relative atomic mass relative molecular mass relative formula mass.
A guide for iGCSE students KNOCKHARDY PUBLISHING
Periodic table Lec. 3.
Revision part3 Periodicity. Aims Electronegativity Ionisation energies Atomic radii Boiling points Group 2 redox reactions Group 2 oxides with water Thermal.
The Periodic Table. MENDELEEV Old image of periodic table.
All toxic All form Diatomic molecules All form ionic salts
Physical properties of halogens. Electronic configurations Halogens are in group VII of the periodic table and so have seven electrons in their outer.
Trends in the Periodic Table trend: direction or pattern p
Group 7, the Halogens.
HALOGENS. Electron structure and reactivity HHe Rn Xe Kr Ar Ne RaAcRfDbSgBhHsMtDsRg??????? BaLaHfTaWReOsIrPtAuHgTlPbBiPoAt SrYZrNbMoTcRuRhPdAgCdInSnSbTeI.
Halogens L.O: To be able to explain the properties and patterns of reactivity of the halogens Starter: Choose a halogen and draw the electronic structure.
Trends in the Periodic Table (Chpt. 7). 1. Atomic radius (size) 2. Ionization energy 3. Electronegativity The three properties of elements whose changes.
Group 7 Elements The Halogens. Group 7 – the halogens The elements in group 7 of the periodic table, on the right, are called the halogens. fluorine chlorine.
Chemical Bonds Regents Review Book: Chapter 4 Chapter 5 – Page 157.
Topic 3 - periodicity Ib chemistry sl.
CHEMISTRY FORM 4 GROUP 17 ELEMENTS.
Periodicity  Elements in the PT are arranged in order of increasing atomic number.  Elements in the same group - same chemical and physical properties.
Aim: What are the Properties of Groups and how does the atomic radius change across a period and down a group ? Do Now: 1. Take out your periodic tables.
Halogens To know how the Group 7 elements behave. (Grade C)
A group of non metal elements
Can you draw Bohr diagrams for flourine and chlorine onto your worksheet?
2.7 Inorganic chemistry of group 7 (limited to chlorine, bromine and iodine) Cro2012.
The Periodic Table is arranged according to the Periodic Law. The Periodic Law states that when elements are arranged in order of increasing atomic.
Revision Unit 4. Atomic Structure Recap of Y10 Work: 1. The particles: ProtonNeutronElectron Charge+10 Mass111/ Where they are protons and neutrons.
Keywords: proton, neutron, electron, shells, negative, atomic number, mass number C2 Topic 1 Atomic Structure and the Periodic Table This topic looks at:
04/24/2016 The Periodic Table Properties of the groups: Each group is like a family – they have similarities such as how they react and their appearance.
Periodic Table. Group 1 What is this also known as? What do Group 1 metals all have in common in terms of their electronic structure? What properties.
Group I Alkali Metals Group VII Halogens Section Review P161 Q1, 2, 4 P164 Q1, 3, 4.
Periodic Table Quiz What is the lightest element on the periodic table? How many elements are there? What is the name for columns? What is the name for.
What is causing this girl to rub her eyes?
Ionic Bonding Noadswood Science, 2012.
3.2.3 Group 7, the Halogens.
C2 Topic 4: Groups in the Periodic Table
Unit 3 – The Periodic Table Review Game
HALOGENS PRECIOUS.
Group 7—The Halogen Group
The Physical and Chemical Properties of the Group 7 elements
What are the properties and trends of Group 7 elements?
Group 7 The Halogens.
Chemical Properties.
C2 Topic 4: Groups in the Periodic Table
Displacement reactions
A guide for GCSE students KNOCKHARDY PUBLISHING
What is an element? Particle Relative charge Relative mass
Alkali Metals – Group 1.
Chemistry Chapter 1 – Atomic structure and the periodic table – atoms, elements, compounds, mixtures, periodic table Draw and label the structure of the.
Presentation transcript:

KNOCKHARDY PUBLISHING GROUP VII The Halogens National 5 Chemistry KNOCKHARDY PUBLISHING

GROUP VII www.knockhardy.org.uk INTRODUCTION This Powerpoint show is one of several produced to help students understand selected National 5 Chemistry topics. It is based on the requirements of the SQA specification but is suitable for other examination boards. Individual students may use the material at home for revision purposes and it can also prove useful for classroom teaching with an interactive white board. Additional Powerpoints, and the full range of Chemistry topics, are available from the KNOCKHARDY WEBSITE at... www.knockhardy.org.uk All diagrams and animations in this Powerpoint are original and created by Jonathan Hopton. Permission must be obtained for their use in any commercial work.

GROUP VII CONTENTS Introduction Group trends Group similarities Reaction with metals Displacement reactions Summary Quick quiz

THE HALOGENS OCCUR IN GROUP VII OF THE PERIODIC TABLE INTRODUCTION THE HALOGENS OCCUR IN GROUP VII OF THE PERIODIC TABLE Group 1 2 3 4 5 6 7 F Cl Br I At

THE HALOGENS OCCUR IN GROUP VII OF THE PERIODIC TABLE INTRODUCTION THE HALOGENS OCCUR IN GROUP VII OF THE PERIODIC TABLE Group 1 2 3 4 5 6 7 F Cl Br I At THEY ARE NON-METALS AND HAVE ELECTRONIC CONFIGURATIONS JUST ONE ELECTRON SHORT OF THE NEAREST NOBLE GAS

GROUP PROPERTIES • exist as separate diatomic molecules… eg Cl2 GENERAL • non-metals • exist as separate diatomic molecules… eg Cl2 • have seven electrons in their outer shells • form negative ions with a 1- charge • reaction with metals and halides

GROUP PROPERTIES • exist as separate diatomic molecules… eg Cl2 GENERAL • non-metals • exist as separate diatomic molecules… eg Cl2 • have seven electrons in their outer shells • form negative ions with a 1- charge • reaction with metals and halides TRENDS • appearance • boiling point • electronic configuration • atomic size • ionic size • reactivity

GROUP TRENDS

GROUP TRENDS APPEARANCE F2 Cl2 Br2 I2 Colour Yellow Green Red/brown Grey State (at RTP) GAS GAS LIQUID SOLID Vapour colour Yellow Green Red/brown Purple

GROUP TRENDS APPEARANCE BOILING POINT F2 Cl2 Br2 I2 Colour Yellow Green Red/brown Grey State (at RTP) GAS GAS LIQUID SOLID Vapour colour Yellow Green Red/brown Purple BOILING POINT F2 Cl2 Br2 I2 Boiling point / °C - 188 - 34 58 183 INCREASES down Group because more energy is required to separate the larger molecules.

ELECTRONIC CONFIGURATION GROUP TRENDS ELECTRONIC CONFIGURATION F Cl Br I Atomic Number 9 17 35 53 Configuration 2,7 2,8,7 2,8,18,7 2,8,18,18,7 • electrons go into shells further from the nucleus

GROUP TRENDS ATOMIC & IONIC RADIUS F Cl Br I Atomic radius / nm 0.064 0.099 0.111 0.128 NOT TO SCALE

GROUP TRENDS ATOMIC & IONIC RADIUS ATOMIC RADIUS INCREASES down Group F Cl Br I Atomic radius / nm 0.064 0.099 0.111 0.128 F¯ Cl¯ Br¯ I¯ Ionic radius / nm 0.136 0.181 0.195 0.216 ATOMIC RADIUS INCREASES down Group IONIC RADIUS INCREASES down Group • the greater the atomic number the more electrons there are these go into shells increasingly further from the nucleus • ions are larger than atoms - the added electron repels the others so radius gets larger

GROUP SIMILARITIES

ELECTRONIC CONFIGURATION GROUP SIMILARITIES ELECTRONIC CONFIGURATION F Cl Br I Atomic Number 9 17 35 53 Configuration 2,7 2,8,7 2,8,18,7 2,8,18,18,7 • all the atoms have seven electrons in their outer shell • ions are larger than atoms - the added electron repels the others so radius gets larger

GROUP SIMILARITIES MOLECULAR FORMULA • all exist as diatomic molecules Cl Br I Molecular formula F2 Cl2 Br2 I2 Bonding Covalent Covalent Covalent Covalent • all exist as diatomic molecules NOT TO SCALE

GROUP SIMILARITIES ION FORMATION Cl Br I Ion F¯ Cl¯ Br¯ I¯ Configuration 2,8 2,8,8 2,8,18,8 2,8,18,18,8 • all gain one electron to form a negative ion of charge 1- • ions are larger than atoms • the smaller the atom the easier it forms an ion

Increasingly reactive GROUP SIMILARITIES ION FORMATION F Cl Br I Ion F¯ Cl¯ Br¯ I¯ Configuration 2,8 2,8,8 2,8,18,8 2,8,18,18,8 • all gain one electron to form a negative ion of charge 1- • ions are larger than atoms • the smaller the atom the easier it forms an ion REACTIVITY F Cl Br I Reactivity Increasingly reactive • reactivity decreases down the Group / increases up the Group

REACTIONS OF HALOGENS 1. WITH METALS 2. WITH HALIDES

REACTION OF HALOGENS WITH METALS

REACTION OF HALOGENS WITH METALS HALOGENS REACT WITH METALS TO PRODUCE METAL HALIDES.

REACTION OF HALOGENS WITH METALS HALOGENS REACT WITH METALS TO PRODUCE METAL HALIDES. THE EASE OF REACTION DECREASES DOWN THE GROUP F > Cl > Br > I

REACTION OF HALOGENS WITH METALS HALOGENS REACT WITH METALS TO PRODUCE METAL HALIDES. THE EASE OF REACTION DECREASES DOWN THE GROUP F > Cl > Br > I THIS IS BECAUSE ‘THE LARGER THE HALOGEN ATOM, THE LESS EASILY IT ATTRACTS THE ELECTRON IT NEEDS TO FILL ITS OUTER SHELL’

REACTION OF HALOGENS WITH METALS HALOGENS REACT WITH METALS TO PRODUCE METAL HALIDES. THE EASE OF REACTION DECREASES DOWN THE GROUP F > Cl > Br > I THIS IS BECAUSE ‘THE LARGER THE HALOGEN ATOM, THE LESS EASILY IT ATTRACTS THE ELECTRON IT NEEDS TO FILL ITS OUTER SHELL’ THE HALIDES OF GROUP I ARE… WHITE IONIC SOLIDS VERY SOLUBLE IN WATER SODIUM CHLORIDE (NaCl) IS A TYPICAL GROUP I HALIDE

REACTION WITH ALKALI METALS

REACTION WITH ALKALI METALS - Equations SODIUM CHLORINE SODIUM CHLORIDE +

REACTION WITH ALKALI METALS - Equations Na + Cl2 NaCl SODIUM CHLORINE SODIUM CHLORIDE

REACTION WITH ALKALI METALS - Equations Na + Cl2 NaCl SODIUM CHLORINE SODIUM CHLORIDE The equation doesn’t balance - multiply the formulae until it does

REACTION WITH ALKALI METALS - Equations Na + Cl2 NaCl SODIUM CHLORINE SODIUM CHLORIDE 2Na + Cl2 2NaCl Balanced equation

SODIUM CHLORIDE FORMATION Na Cl SODIUM ATOM 2,8,1 CHLORINE ATOM 2,8,7 11 protons; 11 electrons 17 protons; 17 electrons

SODIUM CHLORIDE FORMATION + Na Cl SODIUM ION 2,8 CHLORIDE ION 2,8,8 11 protons; 10 electrons 17 protons; 18 electrons both species now have ‘full’ outer shells; ie they have the electronic configuration of a noble gas

SODIUM CHLORIDE FORMATION + Na Cl SODIUM ION 2,8 CHLORIDE ION 2,8,8 Na Na+ + e¯ 2,8,1 2,8 ELECTRON TRANSFERRED Cl + e¯ Cl¯ 2,8,7 2,8,8

DISPLACEMENT REACTIONS OF HALOGENS

DISPLACEMENT REACTIONS OF HALOGENS HALOGENS GET LESS REACTIVE AS THE GROUP IS DESCENDED

DISPLACEMENT REACTIONS OF HALOGENS HALOGENS GET LESS REACTIVE AS THE GROUP IS DESCENDED THIS DECREASE IN REACTIVITY DOWN THE GROUP CAN BE DEMONSTRATED USING DISPLACEMENT REACTIONS... A DISPLACEMENT REACTION IS WHERE ONE SPECIES TAKES THE PLACE OF ANOTHER IN A COMPOUND.

DISPLACEMENT REACTIONS OF HALOGENS CHLORINE WATER Pale green BROMINE WATER Orange SODIUM CHLORIDE SOLUTION Colourless SODIUM BROMIDE SOLUTION Colourless SODIUM IODIDE SOLUTION Colourless A SOLUTION OF THE HALOGEN IS ADDED TO A SOLUTION OF A HALIDE HALIDES ARE SALTS FORMED BETWEEN ELEMENTS AND HALOGENS

DISPLACEMENT REACTIONS OF HALOGENS BROMINE WATER Orange SODIUM BROMIDE SOLUTION Colourless SODIUM IODIDE SOLUTION Colourless Experiment 1 CHLORINE WATER Pale green SODIUM CHLORIDE SOLUTION Colourless NO VISIBLE REACTION

DISPLACEMENT REACTIONS OF HALOGENS BROMINE WATER Orange SODIUM CHLORIDE SOLUTION Colourless SODIUM IODIDE SOLUTION Colourless Experiment 2 CHLORINE WATER Pale green SODIUM BROMIDE SOLUTION Colourless BROMINE produced

DISPLACEMENT REACTIONS OF HALOGENS BROMINE WATER Orange SODIUM CHLORIDE SOLUTION Colourless SODIUM BROMIDE SOLUTION Colourless Experiment 3 CHLORINE WATER Pale green SODIUM IODIDE SOLUTION Colourless IODINE produced

DISPLACEMENT REACTIONS OF HALOGENS CHLORINE WATER Pale green SODIUM BROMIDE SOLUTION Colourless SODIUM IODIDE SOLUTION Colourless Experiment 4 BROMINE WATER Orange SODIUM CHLORIDE SOLUTION Colourless NO VISIBLE REACTION

DISPLACEMENT REACTIONS OF HALOGENS CHLORINE WATER Pale green SODIUM CHLORIDE SOLUTION Colourless SODIUM IODIDE SOLUTION Colourless Experiment 5 BROMINE WATER Orange SODIUM BROMIDE SOLUTION Colourless NO VISIBLE REACTION

DISPLACEMENT REACTIONS OF HALOGENS CHLORINE WATER Pale green SODIUM CHLORIDE SOLUTION Colourless SODIUM BROMIDE SOLUTION Colourless Experiment 6 BROMINE WATER Orange SODIUM IODIDE SOLUTION Colourless IODINE produced

DISPLACEMENT REACTIONS OF HALOGENS SUMMARY OF OBSERVATIONS SODIUM CHLORIDE SODIUM BROMIDE SODIUM IODIDE CHLORINE 1 Solution stays colourless NO REACTION Solution goes from colourless to orange-yellow BROMINE FORMED 2 3 Solution goes from colourless to orange-red IODINE FORMED BROMINE 4 Solution goes from colourless to orange-yellow NO REACTION Solution goes from colourless to orange-yellow NO REACTION 5 Solution goes from colourless to red IODINE FORMED 6 The colour change in Experiments 4 and 5 is due to dilution – there is no reaction

DISPLACEMENT REACTIONS OF HALOGENS EQUATIONS CHLORINE + SODIUM BROMIDE CHLORINE + SODIUM IODIDE BROMINE + SODIUM IODIDE

DISPLACEMENT REACTIONS OF HALOGENS EQUATIONS CHLORINE + SODIUM BROMIDE BROMINE + SODIUM CHLORIDE CHLORINE + SODIUM IODIDE IODINE + SODIUM CHLORIDE BROMINE + SODIUM IODIDE IODINE + SODIUM BROMIDE

DISPLACEMENT REACTIONS OF HALOGENS EQUATIONS CHLORINE + SODIUM BROMIDE BROMINE + SODIUM CHLORIDE CHLORINE + SODIUM IODIDE IODINE + SODIUM CHLORIDE BROMINE + SODIUM IODIDE IODINE + SODIUM BROMIDE Cl2(aq) + NaBr(aq) —> Br2(aq) + NaCl(aq) The equation doesn’t balance - multiply the formulae until it does

DISPLACEMENT REACTIONS OF HALOGENS EQUATIONS CHLORINE + SODIUM BROMIDE BROMINE + SODIUM CHLORIDE CHLORINE + SODIUM IODIDE IODINE + SODIUM CHLORIDE BROMINE + SODIUM IODIDE IODINE + SODIUM BROMIDE Cl2(aq) + NaBr(aq) —> Br2(aq) + NaCl(aq) Cl2(aq) + 2NaBr(aq) —> Br2(aq) + 2NaCl(aq)

DISPLACEMENT REACTIONS OF HALOGENS EQUATIONS CHLORINE + SODIUM BROMIDE BROMINE + SODIUM CHLORIDE CHLORINE + SODIUM IODIDE IODINE + SODIUM CHLORIDE BROMINE + SODIUM IODIDE IODINE + SODIUM BROMIDE Cl2(aq) + 2NaBr(aq) —> Br2(aq) + 2NaCl(aq) IONIC EQUATION Cl2(aq) + 2Br¯(aq) —> Br2(aq) + 2Cl¯(aq)

DISPLACEMENT REACTIONS OF HALOGENS EQUATIONS CHLORINE + SODIUM BROMIDE BROMINE + SODIUM CHLORIDE CHLORINE + SODIUM IODIDE IODINE + SODIUM CHLORIDE BROMINE + SODIUM IODIDE IODINE + SODIUM BROMIDE Cl2(aq) + 2NaI(aq) —> I2(aq) + 2NaCl(aq) IONIC EQUATION Cl2(aq) + 2I¯(aq) —> I2(aq) + 2Cl¯(aq)

DISPLACEMENT REACTIONS OF HALOGENS EQUATIONS CHLORINE + SODIUM BROMIDE BROMINE + SODIUM CHLORIDE CHLORINE + SODIUM IODIDE IODINE + SODIUM CHLORIDE BROMINE + SODIUM IODIDE IODINE + SODIUM BROMIDE Br2(aq) + 2NaI(aq) —> I2(aq) + 2NaBr(aq) IONIC EQUATION Br2(aq) + 2I¯(aq) —> I2(aq) + 2Br¯(aq)

DISPLACEMENT REACTIONS OF HALOGENS SUMMARY CHLORINE + SODIUM BROMIDE BROMINE + SODIUM CHLORIDE CHLORINE + SODIUM IODIDE IODINE + SODIUM CHLORIDE BROMINE + SODIUM IODIDE IODINE + SODIUM BROMIDE THIS SHOWS THAT A MORE REACTIVE HALOGEN WILL DISPLACE A LESS REACTIVE ONE FROM AN AQUEOUS SOLUTION OF ITS SALT

DISPLACEMENT REACTIONS OF HALOGENS EQUATIONS CHLORINE + SODIUM BROMIDE BROMINE + SODIUM CHLORIDE CHLORINE + SODIUM IODIDE IODINE + SODIUM CHLORIDE BROMINE + SODIUM IODIDE IODINE + SODIUM BROMIDE THIS SHOWS THAT A MORE REACTIVE HALOGEN WILL DISPLACE A LESS REACTIVE ONE FROM AN AQUEOUS SOLUTION OF ITS SALT HOWEVER, THIS REACTION DOES NOT TAKE PLACE BROMINE + SODIUM CHLORIDE CHLORINE + SODIUM BROMIDE (Bromine is below chlorine in the Group so is less reactive)

DISPLACEMENT REACTIONS OF HALOGENS EXPLANATION 17+ 35+ CHLORINE ATOM 17 PROTONS 17 ELECTRONS 2,8,7 BROMIDE ION 35 PROTONS 36 ELECTRONS 2,8,18,8 THE CHLORINE ATOM PULLS AN ELECTRON OUT OF THE OUTER SHELL OF THE BROMIDE ION – THE CHLORINE ATOM BECOMES A CHLORIDE ION AND THE BROMIDE ION BECOMES A BROMINE ATOM. PRESS THE SPACE BAR TO SEE WHAT HAPPENS

DISPLACEMENT REACTIONS OF HALOGENS EXPLANATION CHLORIDE ION 17 PROTONS 18 ELECTRONS BROMINE ATOM 35 PROTONS 35 ELECTRONS CHLORINE ATOM 17 PROTONS 17 ELECTRONS BROMIDE ION 35 PROTONS 36 ELECTRONS BECAUSE BROMINE ATOMS ARE LARGER THAN CHLORINE ATOMS, IT IS EASIER TO PULL ONE OF THEIR OUTER SHELL ELECTRONS OUT. CHLORINE NOW HAS THE OUTER SHELL ELECTRONIC CONFIGURATION OF A NOBLE GAS.

GROUP VII - SUMMARY F Cl Br I F2 Cl2 Br2 I2 2,7 2,8,7 2,8,18,7 FLUORINE CHLORINE BROMINE IODINE SYMBOL F Cl Br I MOLECULAR FORMULA F2 Cl2 Br2 I2 APPEARANCE PALE YELLOW PALE GREEN RED-BROWN GREY-BLACK STATE (room temp) GAS GAS LIQUID SOLID COLOUR OF VAPOUR PALE YELLOW GREEN RED-BROWN PURPLE ELECTRONIC CONFIGURATION 2,7 2,8,7 2,8,18,7 2,8,18,18,7 BOILING POINT INCREASES ION (electronic config) F¯ 2,8 Cl¯ 2,8,8 Br¯ 2,8,18,8 I¯ 2,8,18,18,8 REACTION WITH SODIUM LESS REACTIVE PRODUCT OF REACTION WITH SODIUM SODIUM FLUORIDE (NaF) SODIUM CHLORIDE (NaCl) SODIUM BROMIDE (NaBr) SODIUM IODIDE (NaI)

QUICK QUIZ ELEMENTS IN GROUP 7 ARE KNOWN AS THE ……… WHAT ARE THE NAMES OF THE ELEMENTS HOW DOES THE ATOMIC NUMBER CHANGE DOWN THE GROUP? HOW DOES THE ELECTRONIC CONFIGURATION CHANGE? HOW DOES THE ATOMIC SIZE (RADIUS) CHANGE? HOW MANY ELECTRONS DO THEY HAVE IN THE OUTER LEVEL? ARE THEY METALS OR NON-METALS? WHAT HAPPENS TO THEIR COLOUR DOWN THE GROUP? DO THEY GO AROUND IN PAIRS OR AS MONATOMIC GASES? WHAT HAPPENS TO THEIR STATE AT ROOM TEMPERATURE? WHAT TYPE OF COMPOUNDS DO THEY FORM WITH METALS? HOW CAN EXPLAIN THEIR RELATIVE REACTIVITY IN TERMS OF THE ATOMIC STRUCTURE?

QUICK QUIZ - ANSWERS HALOGENS. FLUORINE, CHLORINE, BROMINE, IODINE, ASTATINE. ATOMIC NUMBER INCREASES DOWN THE GROUP. GET MORE SHELLS DOWN THE GROUP. ATOMIC SIZE INCREASES DOWN THE GROUP. THEY ALL HAVE SEVEN ELECTRONS IN THE OUTER LEVEL. THEY ARE NON-METALS. COLOUR DARKENS DOWN THE GROUP. ATOMS GO AROUND IN PAIRS OR AS DIATOMIC GASES. GO FROM GAS TO SOLID DOWN THE GROUP. THEY FORM IONIC COMPOUNDS WITH METALS. THE LARGER THEY ARE THE LESS EASILY ELECTRONS ARE GAINED AND THE LESS REACTIVE THEY BECOME.

© 2011 KNOCKHARDY PUBLISHING & JONATHAN HOPTON GROUP VII The Halogens THE END © 2011 KNOCKHARDY PUBLISHING & JONATHAN HOPTON

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.