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Lesson Plan Title: Water filtration model
Concept / Topic to Teach: How water is filtered naturally through the layers
underneath the ground, and how to replicate/ represent this on a smaller scale.
Target audience: Primary school: 3rd
to 6th
class and Secondary: all years.
General Goal(s): Firstly to understand the natural process groundwater goes
through and to appreciate how long this process can take. Then to appreciate how
outside impacts (e.g. pollution and over-abstraction) can affect this source of
freshwater.
Specific Objectives:
• On a practical level: how to make the filtration model• To illustrate how water is cleaned in the natural environment
• To reveal the dynamics of water i.e. where it goes when it falls on the ground
• To show how modern water treatment uses similar materials (sand/ stone)
to those which clean water in the natural environment
Seven Step Link: All
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Required Materials:
• One 2 litre bottle of water with the label taken off and the base cut off and a
hole made in the lid
• One 2 litre bottle of water filled with dirty water
• Two 1 litre jugs
• A handful of grass/ moss
• Two handfuls of pebbles
• Two handfuls of builders sand (play sand doesn’t work)
• See pictures below
Figure 1. Showing all the materials needed to complete the water filtration model.
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Preparation Level: High
Student’s pre-requisite knowledge and skills: An understanding of the water cycle
would be beneficial.
Anticipatory Set (Lead-In): The use of the water filtration model ties in with a talk
on the sources of water, water treatment and the general movement of water.
This would be a talk designed to provide an understanding of where our water
comes from and how it ends up in our taps. The aim is also to develop an
appreciation of the journey water has to take in order for us to be able to drink it.
Finally, the model itself contributes to an understanding of where all our water
goes e.g. all the rain falling on the ground.
Since the filtration model fits in with a talk on sources of water, you might already
have discussed the water cycle and where our drinking water comes from. Thenyou can pose a new question:
“What happens to all the rain that falls on the fields, and the ground outside (its
good if there’s a view onto fields), where does it go”? This is as opposed to their
familiar view of all the rain falling on top of the mountains and turning into rivers
etc. from the water cycle. You will be met with lots of answers, and the beauty is
that they’re all fairly much correct because so many things happen to
groundwater. I tend to say: “you’re all right, and that right underneath our feet
there is loads of water all moving in different ways”. “There are rivers and lakes
far underneath the ground, and some water is moving slow and some is moving
fast, and some bursts up as springs etc.” The filter then shows one of the ways that
water acts when it is in the ground.
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N.N.B. It takes about 10/ 15 minutes for the dirty water to become clean by goingthrough the filter, so this is why it has to be part of a bigger talk. The way to do it
is at the start of the lesson, to get two pupils to start the filtration process. I
mention to the rest of the class that I’ll come back to this particular experiment in
a while, and then come back to it in a few minutes after I have discussed other
aspects of water and built up to it.
Step-By-Step Procedures:
I make the water filter at home and the students just run the dirty water through it
until it is clean. This is because it can be messy and takes time anyway. To make
the water filtration model:
• Cut the base off a 2 litre bottle, it can be sharp afterwards so you have to
give it quick sand down with something to blunt the edges in case pupils
holding it cut themselves.• Then put a round hole in the lid about 6mm in diameter. You might have
your own way, but I found the best was to heat something metal like a drill
bit and it goes through the plastic real easily (that’s the hardest bit!).
Otherwise it’s hard to make a hole in the lid at all.
• Put the lid back on the bottle and put a small bit of grass/ moss in the bottom
to stop sand falling out.
• Then fill about a third of the bottle with building sand.• Fill the next third with pebbles.
• Fill almost the last third (don’t go right to the top) with grass/ moss.
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In the classroom:
• Get two students to be responsible for the filter until you get around to
talking about it and/ or the water starts coming out clean. One has to hold
the filter over a jug while the other pours in the dirty water. The water has
to go through a few times until it is clean. So every once in a while the jug
that the water is dripping into has to be replaced quickly with the second jug,
and the water that has filtered through poured back into the filter.• While you are talking, you can keep an eye on the progress of the filter, and
remind them to change the jugs if needed.
• Eventually, the water coming out of the filter will become cleaner, and this
can be shown to the class compared to the remaining dirty water in the
bottle.
Figure 2. a) Showing the 2 litre bottle with the base cut off and the lid with a round
hole made in it, and b) the 1st layer of the filter (a small amount of grass/ moss)
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Figure 3. a) Showing the 2nd
layer and 3rd
layer (sand and pebbles), and b) showing
the final layer (more grass/ moss).
Figure 4. Showing the water filter placed in a jug, with dirty water about to be
poured through it.
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Adaptations for students with learning difficulties:
The filtration model is a very visual exercise and would work for nearly all students
as the end result is simply comparing very dirty water and clean water. It would
be difficult to adapt it anymore.
Extensions (for gifted students)
Something that could be done but I have not tried yet would be to let a few groups
of students create their own water filters with possibly smaller bottles. Only
recently I have seen a similar version of this water filtration model done by the
Irish Peatlands Conservation Council (IPCC) at their workshops. They call it: ‘bog in
a bottle’ and although it is not a water filter, it tries to represent the many layers
of the bog. In the same way the water filtration model essentially gives students
the image of looking at a slice through the ground and showing its many layers.
Links to other subjects
Compliments and touches on many aspects of SPHE, science, geography.