Building marshmallow and spaghetti towers is really about exploring forces and construction materials.

• Spaghetti can a little bit of force travelling down the length of the strand but will very quickly snap if it is bent. This means that you need to consider how force is transferred through each spaghetti strand.  You would have found that the arrangement of your spaghetti strands into triangular shapes would have produced the most stable structure. This is not a coincidence! Triangles have been used for several thousand years to transfer forces evenly through structures such as the pyramids, bridges and houses.
• Marshmallows are gooey in their centre. This means that the marshmallows can be easily torn if a shearing force is applied. You would have found that your marshmallows also introduced a mass distribution problem… too many marshmallows to one side and the tower would have fallen down!

Applications

Understanding how forces flow through a structure is critical for engineering. These days, computer modelling is applied to test the effect of different structural arrangements and material types to determine the optimum design of a building. Every material have known breaking points, plus different arrangement of materials produces different arrangements of compression forces (squishing together) and tension forces (pulling apart) in different areas. If the structure is not strong enough to handle those forces, the structure is at risk of breaking apart.

Variables to explore

• Try different brands or ages of marshmallows. Does this make a difference?
• Would binding spaghetti strands together increase the strength, and thereby height, of your tower?
• Try using jelly babies as the binding material for the spaghetti strands instead.
• Will it matter if you build your tower on a cold or hot day?