Investigate Chromatography

Well… day whatever of self isolation. I’m missing routine. I’m unmotivated and finding it difficult to find things to blog about. They’ve just announced that school won’t be back in session until at least May 31st. Pray for us mommas. In light of all this, I thought I would repost this article I wrote for a fellow blogger looking for some science ideas. It’s not been posted on my site, so – perhaps it would be a fun project you could do during isolation? God’s creation is vast and colourful, and hopefully spring will bring me some new ideas to muse about, but until then, enjoy this one! Stay safe, friends.


Greetings!  I am so pleased to share some thoughts with RedHeaded Patti as a guest blogger!  As a scientist and mom of four (plus the extra odd neighbourhood kids and students that sometimes visit) it was a no brainer for me to answer her call for a SUMMER OF STEM ideas!  We are always learning and love to share with others! So let’s get right down to it:  Let’s investigate Chromatography!  We originally tackled this project for this year’s science fair and it is a perfect investigation for all sorts of children or students… you can tailor it to any age by investigating just a bit deeper or a little less.  We wanted something easy, fun and colourful to learn about!  To read about our finished project, check out the link here.  We post every Tuesday and would love to have you join our adventure over at mittonmusings.com!

ChromatographyChromatography, in its simplest terms, means “separating parts of a mixture”.  Scientists do this for all kinds of mixtures:  gases, liquids and solids can all be separated into their various parts.  For example, blood can be separated out to search for specific diseases.  Oil companies often use chromatography to weed out impurities in their products. Gases can be diffused and distilled to investigate all about bombs and warfare.  Distillation is closely related to chromatography and is another method for separating mixtures.  Perhaps you can investigate the differences!  For our example, we are going to be using paper chromatography to separate liquid pigments (in markers) into their various colours.  Pigments are also found in other everyday objects like leaves and candy… even more to investigate!

So… let’s gather our materials:

paper cups

coffee filters

markers (various colours and types)

rubbing alcohol

elastic bands

a dropper

a coin

water

Once you have all your materials now is when the fun starts!!  Here’s the basic method and what our results were.  Feel free to try all sorts of markers and colours and see what results you get!

We took 6 cups and wrapped one coffee filter on the top of each cup and secured it with an elastic band

We picked 5 sharpie colours and traced the coin to make a circle on the filter

We dropped a few drops of alcohol inside the ink circles and watched the circle as it “grew” and separated by moving along the filter paper

We did the same with the Crayola marker, except we used water instead of alcohol (you’ll see why later)

Our Results:

colours

The ink separated (spread) and some turned into different colours along the coffee filter.

Green…. showed yellow

Dark Blue…. showed a light then darker blue

Purple…. showed pink and violet

Teal…. showed yellow and blue-green

Black (Sharpie)…. showed purple

Black (Crayola)…. showed blue and pink

Our favourites were teal and purple!!

Wasn’t that fun?!  Now, as good scientists, we have to ask the question: WHY?  Markers have ink — that’s what makes the colours.  Ink is a mixture of a fast-drying liquid and pigments (the substances that give something colour).  Sharpie markers have alcohol-based ink (permanent), and Crayola markers have water-based ink (not permanent).  So, when we added more liquid (alcohol or water), the ink spread out and separated into other colours.  Did you notice that black is really a mixture of a whole bunch of colours?!

We also observed that some colours spread out further than others.  The water based marker spread the most. This is because “solutes” (the things that make up a mixture) will move along depending on how much of the solute there is in the mixture.   Water based inks have a lot of “solvent”(the stuff that solutes are mixed into)…which is why they are not permanent and are easily washable. Some inks showed more than one colour even though they started out looking like only one!  This shows us that inks (or pigments) are really made up of a mixture (or solution) of different colours that produce the various shades of “single” marker colours.  Isn’t science great?!

We hope you enjoyed this fun and easy science experiment.  Remember it next time you are enjoying some colouring this summer with your markers — and don’t ever stop learning!leaves

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