Temperature Sort

Do you know what’s hot and what’s not? Test your knowledge of temperatures with this challenging activity, sure to spark some heated discussions.

  • Download, print, and cut out the cards (pages 1-6). 
  • It’s a good idea to start by sorting the temperature cards from highest to lowest.
  • Next, match up the ones you know already. Then place the rest of the ‘hot/cold thing’ cards roughly where on the scale you think they will go.
  • Try asking yourself questions to determine the order. Is the inside of the freezer hotter than the surface of the sun? Does chocolate melt at a lower temperature than that of the surface of Mars? (Probably not.)
  • If you get really stuck, page 7 of the document has the answers – but try not to look at these until you’ve had a go at matching them yourself! (Perhaps ask someone to check the answers and give you a hint.)

Curriculum Links

In addition, this activity will develop the important concept of reasonableness of numbers, which begins to develop through the Year 5 and Year 6 Mathematics curriculum.

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Myth Busting Monday: Rainbow Shapes

A rainbow arches over a country road after rain

You can’t help but feel happy when you see a rainbow. They’ve been interpreted as divine messages, adopted as symbols of various causes and movements, and used to decorate just about anything you could imagine. So it might surprise you to learn that one of the most recognisable features of the rainbow is not actually as it seems…

A rainbow arches over a country road after rain
There is more to a rainbow than meets the eye. Image by Free-Photos from Pixabay.

Myth: A rainbow is a semi-circular arc

Truth: There is more to a rainbow than meets the eye. The semi-circular arc is simply the part of the rainbow we can see – the rest is usually obscured by the ground.

First things first – how does a rainbow form?

A rainbow forms when sunlight hits small drops of water in the air. Water is denser than air, so the light slows down and bends (refracts) a tiny amount when it enters the water drop. The light bounces around inside the raindrop, then exits again at a different angle.

As we know, white light is made up of lots of different colours (Red, Orange, Yellow, Green, Blue, Violet) which all have different wavelengths and therefore different amounts of energy. The colours with longer wavelengths (the ‘red’ end of the spectrum) bend less than the colours with shorter wavelengths (the ‘violet’ end). This is what causes the light beam to split into that recognisable spectrum of colours that is so familiar to us.

White light is separated into its component colours (red, orange, yellow, green, blue, violet) by a triangular prism
White light is separated into its component colours (red, orange, yellow, green, blue, violet) by a triangular prism. Image by Lucas V. Barbosa - Own work, Public Domain, https://commons.wikimedia.org/w/index.php?curid=3270145

Where can I see a rainbow?

The rainbow you see depends on where you are standing relative to the light and the raindrops. The sun has to be behind you, and the rainbow will form at an angle of 42 degrees from something called the ‘antisolar point’, which is roughly marked by the shadow of your head.

(In other words, if you drew a line from the shadow of your head to your eyeball, and another line from your eyeball to the rainbow, the angle between the lines would be 42 degrees.)

This means that if the sun is lower in the sky, the rainbow will appear higher, and vice versa.

Can I go to the end of the rainbow?

The rainbow’s position depends on your eyes’ position. This means that if you move slightly, so will the rainbow that you see. And someone standing next to you will see the rainbow in a slightly different position. And THAT means that it’s literally impossible to walk to the end of the rainbow. (Sorry.)

That’s a shame. Are you going to tell me what shape a rainbow is?

Of course. Consider that 42 degree angle you drew before, between your head shadow, your eye, and the rainbow. The water drops at the correct angle from your eye to form a rainbow aren’t just in one spot. They’re in an arc, all around your eye. ALL around, meaning that if you replaced the ground with a bunch more water droplets (or your vantage point was high enough), the rainbow you’d see would be a complete circle!

Mind. Blown.

A circular rainbow over the ocean
When viewed from a high enough vantage point, a rainbow will appear as a full circle. Photo by Jakob Owens from Stocksnap.

That’s amazing! But…there’s a but, isn’t there?

Yep. But…if you’re ready to have your mind blown even further, consider this.

Rain isn’t usually two-dimensional. It doesn’t just fall in a sheet and make a line on the ground. It’s three-dimensional – and so the rainbow-forming droplets also take up a three-dimensional space.

A rainbow therefore isn’t a fixed distance away from you, the observer – it can be anywhere there are droplets of water at the correct angle. If you are unlucky enough to be standing in a solid rainstorm with the sun shining behind you, there are rainbow-forming droplets everywhere from right next to your eyeballs, to several kilometres away.

So a rainbow isn’t just a two-dimensional circle…it’s actually a three-dimensional CONE. With your eyeballs at the point, and your head-shadow (the antisolar point) at the centre of the cone’s base.

Next time you see a rainbow, make sure you inform the nearest fellow observers that it is, in fact, a rainbow CONE.

And if you’ve managed to get your head around this, head on down to your nearest ice cream shop and treat yourself to a triple-scoop cone – you have certainly earnt it.

Rainbow swirl ice cream cone
Another slightly more delicious kind of rainbow cone. Photo by Key Notez from Pexels.

Need more detail? Here is a more in-depth look at the maths behind rainbows (external link).

Use your new-found rainbow knowledge to make your own rainbow at home.