Recreating the Iodine Clock Reaction at Home with Vitamin C

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Today I've decided to explore an iodine clock reaction that can be done at home with household materials

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The general gist of this reaction is that two colorless

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solutions are mixed and then after a certain period of time a sudden color change occurs

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There's a lot of different variations and recipes for the iodine clock reactions,

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but pretty much all of them use some form of iodine and starch

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so today, we're going to be doing the vitamin C variant and everything that you need is shown here as

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I said before the reaction is a mixture of two colorless solutions

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And this means we're going to have to be making a Solution A and a Solution B

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Solution A requires two 1000 milligram tablets of Vitamin C,

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iodine tincture (tincture of iodine) , and distilled water

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My Iodine solution was 5% so I use 25 milliliters, but if your solution is let's say 2%

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you'll have to use 60 milliliters. If you can only find 500 milligram tablets of Vitamin C,

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you can just use four of those instead of two, and

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also try not to get the chewable tablets because that has a bunch of extra stuff in it.

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For Solution B, I used 0.4 grams of cornstarch

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150 milliliters of 3% hydrogen peroxide and distilled water

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It's important to note that in both of these solutions

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I use distilled water, and we shouldn't use tap water because this can interfere with some things

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We start off by making Solution A and for this we need two 1000 milligram tablets of vitamin C

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Using the back of a spoon I try to crush the tablets

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You don't have to completely powderize the tablets, but you don't really want to have any chunks left over either

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The crushed pills are transferred to a suitable container and here I used the beaker, but in theory you could use anything really.

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On top of the powderized pills, I then poured in about 60 milliliters of distilled water

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This mixture is then stirred for something like 30 seconds

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What we're doing here is we're trying to dissolve the vitamin C from the tablets into the water

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Most of the pill though is just filler and stuff that's not soluble in water,

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so don't try to dissolve everything because it's not going to happen

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After about 30 seconds of stirring, we're left with a solution that kind of looks like this

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Like I said there's a lot of insoluble stuff in the pills

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So to get rid of this we're going to have to filter it off

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The filter system is very simple, and it's just a couple coffee filters in a dollar store funnel.

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I dumped the mixture into the coffee filters and very quickly a relatively clear solution starts to come through

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This is going to take a little bit of time so while it's filtering I'm going to move on to making Solution B

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To make Solution B, we first have to measure out a little bit of cornstarch.

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In the beginning of the video I said to use 0.4 grams,

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but it really doesn't have to be accurate and you can just estimate based on how much you see here in the video.

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On top of the cornstarch I poured in about three hundred and fifty milliliters of distilled water

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Once the water is added, I try to mix up the cornstarch, but the solution remains pretty cloudy

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To try to dissolve as much cornstarch as possible the solution is placed in a microwave and heat up until boiling

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Although it's clearer than before, it's still a little too cloudy for my liking so I filter it through something like four coffee filters

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The solution that makes it through is a lot clearer, and it has a lot less free-floating undissolved cornstarch in it

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Once it's all filtered through I remove the funnel and I turn the flask so I can see the volume markings

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What we do now is we add about 150 milliliters of 3% hydrogen peroxide

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After the peroxide is added and the solution is mixed a little bit

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We're done making Solution B and we can move back to making Solution A

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For Solution A, the next thing that we need to do is add our iodine tincture to our vitamin C solution

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The iodine tincture is very dark and strongly colored but when it's added to the vitamin C

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you can see that the color starts to disappear

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After everything's added and the mixture is swirled,

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it should go back to being colorless. If this doesn't happen it means you didn't have enough vitamin C

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The color of the tincture is due to the presence of iodine or I2

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but when it reacts with vitamin C, it's converted to iodide or I- which is colorless

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To finish Solution A, we just top things off to about 500 milliliters

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Solutions A and B are now complete, so we're done with our preparation and we can move on to the fun part

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To test things out, we add roughly an equal amount of Solutions A and B to a beaker and then mix it up.

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A sudden color change should occur, but this might actually take a little bit of time, so while we're waiting for things to change

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I'm going to quickly talk about what's happening here in

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Solution A we effectively have a mixture of vitamin C and colorless I- ions and

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in Solution B we have hydrogen peroxide and starch

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When Solutions A and B are mixed they actually start reacting together

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but it's not just one reaction that's occurring it's two reactions

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These two reactions are competing and they kind of push each other back and forth

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The hydrogen peroxide wants to oxidize the I- back to colored I2

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but the ascorbic acid

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wants to reduce it from I2 back to I-

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This reaction occurs really quickly and the I2 doesn't exist for very long and it's extremely transient

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Eventually though the vitamin C is consumed because we've included an excess of hydrogen peroxide,

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so I2 starts to accumulate

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The I2 then very quickly

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complexes with I- to form triiodide complex and this quickly complexes with starch

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This all happens extremely quickly, and we're left with a nice blue complex of triiodide and starch

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The concentration of each of the reactants and the temperature of the reaction mixture

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will determine how long it takes for the color change to occur

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The color change will occur quicker if we increase the concentration

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of either the I- or the hydrogen peroxide and the color change will take longer if we increase the concentration of Vitamin C.

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On top of concentrations,

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we can alter temperature, so if we increase the temperature the color change will occur much quicker,

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and if we decrease the temperature it will take longer

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At the concentration and temperature that I did for this previous

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demonstration it took about a minute to change but for me this was a bit too long,

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so to speed things up I heated up my Solutions A and B in the microwave

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After I heated them up they were around 50 °C and instead of taking something like a minute it took something around 10 to 20 seconds

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Here we just have an example where Solution A is already in a beaker and I add Solution B

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but we mix it the whole time

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When the solution is being constantly stirred the color change occurs much more uniformly throughout the whole thing

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We can also do the classic

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demonstration where the solutions are mixed back and forth and then we slowly pour the solution from one into the other

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When we do this the color should in theory change at the exact same time throughout all of the liquid.

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Here it kind of looks like it wasn't all at the same time, but it still is pretty close

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So here's a demonstration that I kind of thought might be cool where it looks like we make some instant coke

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So just like all of the other demonstrations. We pour Solution A or B in and then we follow it with the other Solution

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Pouring one solution into the other actually mixes things pretty well, but just to make sure that everything was thoroughly mixed

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I shook it around a little

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The color change occurs pretty quickly after I place the coke bottle back down

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Some of you might be wondering why I have my phone with the timer running in the background

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nd this is actually because I don't want people to claim that this is fake or something

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I wait a few minutes, and then I place a glass on the side, and I pour out our freshly synthesized coke

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The color is actually surprisingly

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close to that of actual coke you know except for the purple cloud that comes off when I pour it into the glass

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What's interesting is this is from another run, and I didn't wait long enough before pouring the solution, and you can actually see it's green

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you have to actually wait a little bit for the peroxide to convert more I- to I2

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which has a slight brown color in water

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So for now, that's all I really have to say about this method for the iodine clock reaction.

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I really want to do this method because it's very easily done at home

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But I don't think the color change is as fast and instantaneous as some of the other methods

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I've also decided to revisit and redo my previous iodine clock reaction video, and I've already filmed that and that should be up eventually

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I haven't posted a video in a while, and it's not because I'm slacking,

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it's because I've kind of gone on a rampage and filmed a bunch

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So as usual a big, thanks goes out to all of my supporters on Patreon,

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but I have to give a very special thanks to everyone who donated five dollars or more

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Like I said in a previous video I kind of have too many $5 supporters to realistically read out each of your names

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But just know that I still love you all