Le Chatelier's principle

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okay in this video we're going to look

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at a important part of chemistry called

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lush ateliers principle and this is all

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about reversible reactions when they're

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at a state we call equilibrium if you

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like when they're balanced and less

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atelier said when a system that's any

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group of chemicals together in a

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test-tube relaxed when a system in

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equilibrium is subjected to a change the

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equilibrium will shift to minimize that

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change and hopefully the experiments are

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gonna show you now will illustrate that

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particular principle now on my left I've

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got a chemical called well it's copper

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coke pardon it's cobalt chloride but

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it's dissolved in water and cobalt

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chloride in water produces a pink

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solution due to a cobalt iron which has

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six water molecules bonded to it

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you don't need to know that formula at

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GCSE at a two you do but that's another

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story

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meanwhile on the right hand side we have

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a beaker full of cobalt chloride complex

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it's a nice rich blue color in the

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middle a purple color we've got an

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equilibrium of the two different

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chemicals mixed together so you've got

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some pink and some blue and just like

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when you used to mix paints when you

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were younger we've got a nice purple

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color now let me illustrate

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lechatelier's principle I've got some

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hydrochloric acid and I'm gonna put a

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few drops of that into my beaker in the

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middle that's at equilibrium

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hydrochloric acid being an acid is got

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h+ ions and being a hydrochloric acid

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has chloride ions as well and this being

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concentrated hydrochloric acid we're

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adding a large number of chloride ions

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and watch what happens you see the

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solution goes blue if I stir it round

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it's not fully blue but it's be on a

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darker purple a bluer purple and if I

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keep adding hydrochloric acid you can

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see very intense blue

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eventually we will get to a complete

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blue we're not quite there yet we've

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still got some water present so we've

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got the pink chemical and the blue

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chemical they're still in equilibrium

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now but there's more of the blue unless

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the pink because we added more chloride

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ions it says English ateliers principle

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when a system and equilibrium is

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subjected to a change the equilibrium

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will shift to minimise the change we

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added lots of chloride ions so the

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equilibrium shifts this way towards the

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blue end to get rid of some of the extra

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chloride ions we added those chloride

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ions we add some of them will react with

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the pink to make more blue now we can

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reverse that reaction because we could

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add some water now if I just get a

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beaker of water if I add a bit of water

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back so we're adding something now to

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the right-hand side we're increasing the

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amount of water in our system just pour

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in some water and straight away you

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could see pink and didn't take much

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water we've already gone back towards

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the sort of purple color we started off

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with and we're very close to the pink so

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that's one thing we can do if we add

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more of the chemical on one side on the

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left

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more chloride ions it shifts towards the

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bluer side it goes to the right if we

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have more water it goes to the left and

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that is lush ateliers principle in

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action there is another important thing

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to notice with lechatelier's principle

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and that's the effect of temperature now

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if I just move my blue fluoride

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substance and my pink water substance

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out the way a minute

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I'm going to take my mixture here and

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I'm gonna put it in three separate

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boiling tubes and I want about the same

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amount of each try and do a fair test

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and I'll show you in a second that they

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look pretty much the same doesn't have

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to be exactly the same there we go

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similar amounts of three purple

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solutions and I'm gonna put one of my

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solutions in ice so in it goes I'm going

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to leave one of my solutions at room

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temperature and in my third my third

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solution is going to go in water that I

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boiled a couple of minutes ago from the

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kettle let's see if we can spot any

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difference so we'll give them a few

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seconds to shift remember what we've

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done according to Lycia today's

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principle if we subject an equilibrium

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which will change the equilibrium will

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shift to minimize that change so if I

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heat something up it will go in the

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direction that tries to cool it down and

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that is the endothermic direction if I

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cool it down it will go in the direction

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that tries to warm it up the exothermic

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direction so much ateliers principle is

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a bit like sods law if you try to do one

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thing the chemicals will try and do the

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opposite I try and heat it up the

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chemicals will go endothermic they'll

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try and cool down if I cool it down

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they'll try and go exothermic they'll

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try and get hotter okay they've been in

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the beakers for long enough now and if I

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take them out okay the difference

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between the one on the left in the

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middle isn't that great but the one on

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the right you can see has gone very blue

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so when I make the chemical very very

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hot that was the boiling water water

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over kettle it goes in the blue

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direction when I make the water very

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very cold it tries to go back in the

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pink direction so this tells us

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something important about our reaction

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let's just recap then heat it up it goes

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blue

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so with heat it goes in the blue

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direction so going to the right making

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the blue chemical must be endothermic

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and when I cool it down here's a nice

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here's at room temperature it becomes

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more pink so when I cool it down the

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equilibrium shifts to try and warm up it

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goes in the exothermic direction so we

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can use less ateliers principle in in

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more than one way if we know whether a

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reaction is XR endothermic we can

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predict which way it will go

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if we don't we can do the experiment and

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we'll see which way it goes and that

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will tell us whether it's X or

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endothermic but this idea applies to all

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reversible reactions if you heat any

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reversible reaction up it will shift in

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the endothermic direction cool any

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reversible reaction down and it always

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goes in the exothermic direction and

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that's it the chatelier's principle in a

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few simple experiments