Learn to write procedures and build them into Logo programs. Learn to use variables.
Can you puzzle out what sequences these Logo programs will give? Then write your own Logo programs to generate sequences.
What happens when a procedure calls itself?
Write a Logo program, putting in variables, and see the effect when you change the variables.
This part introduces the use of Logo for number work. Learn how to use Logo to generate sequences of numbers.
Turn through bigger angles and draw stars with Logo.
More Logo for beginners. Learn to calculate exterior angles and draw regular polygons using procedures and variables.
MoirÃ© patterns are intriguing interference patterns. Create your own beautiful examples using LOGO!
More Logo for beginners. Now learn more about the REPEAT command.
A Short introduction to using Logo. This is the first in a twelve part series.
The third installment in our series on the shape of astronomical systems, this article explores galaxies and the universe beyond our solar system.
This article for students gives some instructions about how to make some different braids.
Learn how to draw circles using Logo. Wait a minute! Are they really circles? If not what are they?
Under which circumstances would you choose to play to 10 points in a game of squash which is currently tied at 8-all?
This is the second in a twelve part introduction to Logo for beginners. In this part you learn to draw polygons.
Learn about Pen Up and Pen Down in Logo
Maths is everywhere in the world! Take a look at these images. What mathematics can you see?
Details of our activities deigned for STEM clubs.
Mathematics has always been a powerful tool for studying, measuring and calculating the movements of the planets, and this article gives several examples.
Does weight confer an advantage to shot putters?
An introduction to bond angle geometry.
Have you ever wondered what it would be like to race against Usain Bolt?
The second in a series of articles on visualising and modelling shapes in the history of astronomy.
This article explores ths history of theories about the shape of our planet. It is the first in a series of articles looking at the significance of geometric shapes in the history of astronomy.
Mathematics has allowed us now to measure lots of things about eclipses and so calculate exactly when they will happen, where they can be seen from, and what they will look like.
Many natural systems appear to be in equilibrium until suddenly a critical point is reached, setting up a mudslide or an avalanche or an earthquake. In this project, students will use a simple. . . .
Where do people fly to from London? What is good and bad about these representations?
Is there a temperature at which Celsius and Fahrenheit readings are the same?
Can you rank these sets of quantities in order, from smallest to largest? Can you provide convincing evidence for your rankings?
Design and test a paper helicopter. What is the best design?
Could nanotechnology be used to see if an artery is blocked? Or is this just science fiction?