Syllabus Edition

First teaching 2023

First exams 2025

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Radicals (HL IB Chemistry)

Revision Note

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Richard

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Chemistry

Radicals

  • Reaction equations tell you about the amount of reactants and products, including their stoichiometry, in a reaction
  • Reaction mechanisms tell you about how the reaction actually takes place
    • Mechanisms involve the movement of electrons and a variety of chemical species
  • One group of chemical species involved in reaction mechanisms are radicals 

What are radicals?

  • A radical is a chemical species that has an unpaired electron 
  • They can be described as:
    • Atomic - a single atom with an unpaired electron
    • Polyatomic / molecular - a group of atoms bonded together with no overall charge, that contains an unpaired electron
    • Anionic - an atom or molecule that gains one electron to become an anion AND has one atom with an unpaired electron 
    • Cationic - an atom or molecule that loses one electron to become a cation AND has one atom with an unpaired electron
  • The sole requirement for a radical is the unpaired electron
    • They can exist independent of the charge on the chemical species, e.g. cations must have a corresponding anion and vice versa 

Examples of radicals table

name formula atomic polyatomic
/ molecular
anionic / 
cationic
benzene •C6H6   anionic
bromine Br•    
ethanol C2H5OH+   cationic
hydrogen H•    
hydroxyl OH•    
methyl •CH3    
nitric oxide NO•    
propane •C3H8+   cationic
superoxide O2   anionic

  • Radicals are indicated by the dot (•) in the formula of the chemical species
    • When the radical is made of several atoms, the radical dot should be shown on the atom with the unpaired electron
    • This is most obviously seen in displayed formulae

The methyl radical

methyl-radical

Worked example

Which of the following species are radicals?

  1. Cl
  2. F
  3. Mg2+
  4. NH3
  5. NO2 

 

Answer:

  • Draw the Lewis formulas, including all valence electrons, of each species:

NYGoIQeQ_chloride-ion-lewis-structure

Cl

fluorine-atom-lewis-structure

F

WTvxeJ9H_magnesium-ion-lewis-structure

Mg

ammonia-lewis-structure-ib-chemistry

NH3

 paNxwsA5_no2-lewis-structure

NO2

 

  • Identify the species that have an unpaired electron
    • The species that are radicals are:
      • F
      • NO2 

Reactivity of radicals

  • The unpaired electron of a radical makes them highly reactive 
  • It causes them to have a high enthalpy
  • In terms of energetics, it is favourable for radicals to react and form products with a lower enthalpy which can be achieved by:
    • Taking an electron from another species - although this creates other radical species because the resulting other species will have an unpaired electron
    • Combining with another radical to form a covalent bond
  • Their high reactivity means that radicals are, typically, not long lasting

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Richard

Author: Richard

Richard has taught Chemistry for over 15 years as well as working as a science tutor, examiner, content creator and author. He wasn’t the greatest at exams and only discovered how to revise in his final year at university. That knowledge made him want to help students learn how to revise, challenge them to think about what they actually know and hopefully succeed; so here he is, happily, at SME.