Introduction
These are the Group VII non-metals that are poisonous and include fluorine, chlorine, bromine, iodine and astatine
Halogens are diatomic, meaning they form molecules of two atoms
The formulae of the halogens are F2, Cl2, Br2, I2 and At2
All halogens have seven electrons in their outer shell
They form halide ions by gaining one more electron to complete their outer shells
Fluorine is not allowed in schools so observations and experiments tend to only involve chlorine, bromine and iodine
Properties of the halogens
At room temperature (20 °C), the physical state of the halogens changes as you go down the group
Chlorine is a pale yellow-green gas, bromine is a red-brown liquid and iodine is a grey-black solid
This demonstrates that the density of the halogens increases as you go down the group:
Reactivity
Reactivity of Group 7 non-metals increases as you go up the group (this is the opposite trend to that of Group I)
Each outer shell contains seven electrons and when the halogen reacts, it will need to gain one outer electron to get a full outer shell of electrons
As you go up Group 7 , the number of shells of electrons decreases (period number decreases moving up the Periodic Table)
This means that the outer electrons are closer to the nucleus so there are stronger electrostatic forces of attraction, which help to attract the extra electron needed
This allows an electron to be attracted more readily, so the higher up the element is in Group 7 then the more reactive it is
Predicting melting and boiling point
The melting and boiling point of the halogens increases as you go down the group
Fluorine is at the top of Group 7 so will have the lowest melting and boiling point
Astatine is at the bottom of Group 7 so will have the highest melting and boiling point
Predicting physical states
The halogens become denser as you go down the group
Fluorine is at the top of Group 7 so will be a gas
Astatine is at the bottom of Group 7 so will be a solid
Predicting colour
The colour of the halogens becomes darker as you go down the group
Fluorine is at the top of Group 7 so the colour will be lighter, so fluorine is yellow
Astatine is at the bottom of Group 7 so the colour will be darker, so astatine is black
Why is fluorine considered the most reactive halogen?
What happens when halogens react with metals?
How do halogens form compounds with hydrogen?
What are the trends in boiling points and melting points of the halogens?
How do halogens participate in displacement reactions?
What are the environmental impacts of halogen compounds?