The strongest creature on Earth.
It can lift up to 50 times its body weight, but is smaller than your little finger!
Ants are considered the strongest animals in the world because they can lift weights disproportionate to their tiny size.
Unbelievably it's their tiny size that's the key.
The Square-cube Law
The square-cube law explains why an animal's ability to lift heavy objects changes with its size.
It hinges on the difference between squared and cubed numbers and how these relate to muscle strength and muscle mass.
Squared and Cubed Numbers
Length is measured in meters.
Whereas area is measured in meters squared.
And volume is measured in meters cubed.
This means that area is basically length squared and volume is length cubed.
In animals, muscle strength is related to the area.
Muscle mass is related to the volume.
This means that muscle strength is proportional to muscle length squared and muscle mass is proportional to muscle length cubed.
So as the size of the animal increases the strength and mass of its muscles increase at very different rates.
This graph shows that as the muscle length increases, strength increases.
But this new line shows that muscle mass increases at a much faster rate.
Following the square–cube law, as the ant increases in size, the difference between muscle strength and muscle mass grows.
A larger proportion of its strength is wasted in supporting its ever-increasing muscle mass, so it loses its ability to carry heavy objects.
So smaller animals, with shorter muscles - like ants - are proportionately stronger.
But if an ant were the same size as you, so much of its strength would be used supporting its inflated muscle mass that it wouldn't even be able to lift a sixth of its own body weight!