Optics - the study of light
Optics – the study of light
The study of light is known in science as optics.
This half-term our class will be studying how light travels and what effects this has on Earth and in the rest of Space.
We will be learning that eclipses are just giant shadows.
We will be learning that light travels in straight lines except when encountering black holes because gravity is a stronger force than light.
We will be learning how Albert Einstein – amongst many other brilliant scientists – built our understanding of optics.
We will be learning that sound waves behave in different ways to light waves – and building a periscope to prove that point!
Want to learn more?
Click here to learn about famous scientists involved in researching optics.
Click here to learn about important vocabulary related to optics.
Click here to learn about practical activities you can complete at home to develop your understanding of light.
Click here to view some optical illusions.
Click here to learn about prisms and how light is made up of seven different colour – you may have seen them before (it’s a rainbow!).
Develop your eloquence in light and optics
With a friend or family member, debate the following questions to get your mind wrapped around the amazing world of light and optics:
What can you see when there is zero light?
Why do we see such detailed images of objects in mirrors?
Odd One Out: Moon, a torch, a light bulb.
Why do shadows change shape during the course of the day?
Always, Sometimes, Never: Light travels in straight lines.
What if objects cast shadows in the shape of the source of light?
If you wanted to create an opaque painting what colours would you use to create it?
What if light didn't travel in straight lines and could travel around corners - would we still have shadows?
Why is a Black Hole completely black and devoid of light?
True or false? Black is a colour.
Why do we ‘see’ history when we look at stars?
Write a brief explanation of how periscopes work?
What is the problem if the mirror moves position on a periscope?
What if light could travel through opaque objects in the same way as sound does?