The 5th element in the periodic table is Boron and has the chemical symbol B.
By now you will probably have noticed that each element we discuss is slightly bigger that the last. We started with Hydrogen, Atomic Number 1 and 1 electron, through Helium with 2 electrons, Lithium with 3, Beryllium with 4 and now Boron with 5.
Don’t know if you remember but Hydrogen and Helium were both gases and extremely light.
Lithium and Beryllium are both metals and solid. When describing something as a solid, liquid or a gas, scientists would always add some information about the temperature. This is because if you heat a solid you can turn it into a liquid and if you keep heating, the liquid will become a gas. This happens at different temperatures for different materials.
You will all be familiar with water – in Ireland it is a liquid, but if you lived in the North Pole you would be more used to seeing water as a solid! So the correct way to describe Lithium and Beryllium is say they are solids at room temperature. Room temperature is not a very precise term. It is the temperature that a room is at when people are comfortable in it. This is usually between 20°C and 25°C.
So what about Boron – well firstly, like Beryllium it doesn’t exist on its own. Scientists can separate it from other molecules but it is never found in nature as a clump of Boron atoms.
Almost all the elements in the periodic table can be grouped or classified as either metals or non-metals. Hydrogen and Helium are non-metals, Lithium and Beryllium metals but Boron is different. It is classified as a Metalloid. This means that it is in “no man’s land” – chemically it is somewhere in between. So sometimes it behaves like a metal and other times like a non-metal.
So far when I have drawn atoms I have always shown the nucleus in the middle with the electrons orbiting in circles around the nucleus – a bit like Saturn and its rings. Boron’s fifth electron can’t fit into the outer circular orbital as it already containing 2 electrons so is now full. The next empty orbital isn’t circular like the previous ones but it is the same shape as the number 8.
Although elemental boron is not found, boron is present in many chemical compounds. It has 3 electrons available for bonding and it usually forms the sharing, covalent type of bonds. An example of such a compound would be BF3 – Boron triFluoride. Fluoride needs one extra electron to fill its outer electron shell so three fluoride atoms link up with one boron to make a stable compound.
It is borosilicate glass which gives pyrex its ability to be put into hot ovens without the glass shattering. Boron compounds are used in bullet proof vests and boron is also used in the computer industry to change the properties of semiconductors. Boron is found in borax, Na2B4O7, which in the past was used as a cleaner.
Borax Molecule
Today and among children in particular, borax’s claim to fame is that it is the cross linking agent used to transform PVA glue into Slime.
Check out the following cool activity using the boron containing compound, Borax:
You will need: Borax, water, PVA glue, 2 beakers, weighing scales, spatula or spoon
Step 1 Dissolve 5g borax in 100mls warm water.
Step 2 To 50g PVA glue add 150mls water. Mix well. (The quantity of water required depends on how thick the PVA is so you might need to adjust the amount of water needed).
Step 3 While stirring the PVA solution gradually add small amounts – say 1 teaspoon at a time, of the borax solution you prepared in step 1. Continue stirring and adding borax solution until the PVA turns to a rubbery slime.
Step 4 Take the slime out of the container and have fun playing with it.
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