Coke Fountain
How science finds things out
Suppose you notice that if you drop mint sweets into diet coke, you get a frothy eruption. After you’ve tried it a few times, you wonder what’s causing it to happen. Where are the bubbles coming from, you ask yourself?
Can you trust it?
Year 7 found this photo on the Internet, but they are a bit suspicious.
We didn’t take this photo, they point out, how do we know if it’s genuine.
How would you decide whether to trust the photo?
Science is the best method we have to check out what’s true. It’s so reliable because … it relies on gathering observations to support or throw out ideas. The advantage with science is that everyone can see the evidence (provided they have the right equipment).
You think, “Aha! The bubbles are coming from the fizzy coke. The sweets are causing the bubbles to froth up and that’s causing the fountain.”
Are you right?
This is the kind of question that is perfect for science. First of all, you need to check whether the drink has to be fizzy. Does the picture on the left help?
Closer inspection of the sweet shows you that the surface is rough.
Perhaps this also makes a difference to how much froth is produced, how can you check?
Scientific evidence is objective.
That means everyone can see it (provided they have the right equipment.)
Using science to answer questions and test ideas
If I asked you, “what is the tallest mountain in the world?” you’d probably say Everest… But are you sure? Have you personally measured the heights of all the mountains in the world?
Luckily for us, these days lots of the ideas we are told have been checked out by scientists…
Science is amazingly useful. We use science to test how long food lasts in and out of the fridge, we use it to discover how good the brakes are on cars and we use it to test the safety of medicines. But that’s just the start of it. Science is involved in just about every aspect of life, these days!
They’ve even measured the height of Everest! First they put a radar transmitter on the top. Then with the help of an overhead satellite, they measured the height as 8850 metres.
So does science have an answer for everything? No! And here’s why. There are some things we can observe and measure. We call these observations or facts or scientific facts and they’re simple to check. An example would be the height of Everest.
There are some more complicated ideas in science that are more like descriptions.
Take for example, a scientific drawing of a red blood cell. We call these descriptions theories. Theories are never certain, but they’re useful because they tell us something that scientists want us to know about the real thing. What do you know about a red blood cell by looking at this drawing? And we can test theories using experiments and back them up with facts. And then there are some questions that are totally beyond science to ever even consider … like …. er … see if can you think of one. More about that soon, but first, here’s an example of a theory. So a theory, remember is an idea that scientists can test but never prove for sure. It’s a theory about How the Universe began
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