An 'invisible hand' is to blame for your loose shoelaces

An 'invisible hand' is to blame for your loose shoelaces

When your shoelaces comes untied, the thought that probably pops in your brain is: "Ugh, that's annoying. Guess I'll retie my laces now."

But to mechanical engineers, this tedious occurrence represents a scientific black hole.

Why do shoelaces shake off their knots, and how?

Why is one way of tying a shoelace stronger than the other?

Engineers at the University of California, Berkeley, recently took these questions to the lab.

Using a slow-motion camera during a series of experiments, they developed a theory that might solve the mystery of floppy shoelaces.

Within a matter of seconds, a "double whammy" of stomping and whipping forces seems to act like an invisible hand that loosens the knot and tugs on the laces' free ends until, finally, the knot unravels, the team said in a new study published in the journal Proceedings of the Royal Society A.

When you're running, for instance, your foot strikes the ground at seven times the force of gravity.

That causes the knot to stretch and relax, they found.

As the knot loosens, the running legs apply an inertial force on the free ends of the laces.

These complex interactions start an "avalanche effect" that leads to the knot coming untied.

"Some laces might be better than others for tying knots, but the fundamental mechanics causing them to fail is the same, we believe," Christine Gregg, a study co-author and graduate student, said in a news release.

Gregg, who is a runner, jogged on a treadmill for the study while her colleagues filmed her shoes.

During the experiments, the team also added weights to the free ends of laces and found that knots failed at higher rates as the inertial forces on the free ends increased.

Read the full article here.


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