EXPLAINER – How do fingers snap?

Years

4 & 7-8

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It’s friction – and surprisingly fast motion that allows us to snap our fingers.

Use this explainer resource to investigate how we can snap our fingers in this resource for Year 4, 7 and 8 students studying forces and energy transformations.

Download the explainer cartoon below for your classroom.

Researcher Saad Bhamla snapping fingers. Credit: Georgia Tech

Humans have been snapping fingers for thousands of years – records of finger clicking go back to ancient Greece, and it likely happened long before that.

But how does finger snapping actually work? A team of US researchers have discovered it has a lot to do with the friction of finger pads.

“For the past few years I’ve been fascinated with how we can snap our fingers,” says Saad Bhamla, an assistant professor at the school of chemical and biomolecular engineering at the Georgia Institute of Technology, US.

“It’s really an extraordinary physics puzzle right at our fingertips that hasn’t been investigated closely.”

The researchers theorised that the snapping works in a spring-like way, similar way to the previously-studied motion of mandibles in some insects. You build up energy in your fingertips by pressing your finger and thumb together, ready to snap. When they slide past one another, the energy is released suddenly, causing your finger to hit your palm. This impact sends out shock waves that make the clicking sound.

A Greek vase from 320 BCE, depicting a figure snapping their fingers. Click to enlarge. Credit: Wikimedia Commons

In their paper, published in the Journal of The Royal Society Interface, the researchers state that these “weak shock waves” are “similar to a hand clap”.

The researchers examined a number of finger snaps with high-speed imaging, automated image processing, and dynamic force sensors. They used these to determine the acceleration, and the rotational velocity, of the finger snap.

“This is the only scientific project in my lab in which we could snap our fingers and get data,” says Bhamla, who has done previous research with colleagues on ultrafast motions in living organisms like insects and cells.

“When I first saw the data, I jumped out of my chair.”

The speed of the finger snap was quick, but it was the acceleration that broke records for the human body.

“The finger snap occurs in only seven milliseconds, more than 20 times faster than the blink of an eye, which takes more than 150 milliseconds,” says Bhamla.

The finger snap intrigued Bhamla and undergraduate student Raghav Acharya after they’d watched the 2018 movie Avengers: Infinity War. A central scene in the movie involves the villain Thanos donning a metal gauntlet and then snapping his fingers, activating the gauntlet’s power and causing universe-level disruption.

Gauntlet magic aside, the researchers had a simpler question: would your fingers actually make the snapping sound if they were covered in metal?

They investigated this by looking at finger snaps while fingers were covered with different materials – including metal thimbles and lubricants. The metal slowed the fingers down, and the decreased friction made it harder to snap.

“Our results suggest that Thanos could not have snapped because of his metal armoured fingers,” says Acharya.

“So, it’s probably the Hollywood special effects, rather than actual physics, at play! Sorry for the spoiler.”

“The compression of the skin makes the system a little bit more fault tolerant,” explains doctoral student Elio Challita. “Reducing both the compressibility and friction of the skin make it a lot harder to build up enough force in your fingers to actually snap.”

Interestingly, things that increased friction – like rubber – also slowed fingers down. The researchers believe there is thus an optimum amount of friction to both power the snap, and allow fingers to slide past each other quickly.

The researchers developed mathematical models to explain their data and the physics of the snap.

“This model can now help us understand how other animals such as termites and ants snap their mandibles, as well as rationally bioinspired actuators for engineering applications,” says Mark Ilton, an assistant professor at Harvey Mudd College, US.

The researchers say that the data can also be used in prosthetic finger development.

This article was initially published on Cosmos. Read the original article here.

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Topics:

Physical Sciences – Forces, Energy

Additional: Careers, Technology.

Concepts (South Australia):

Physical Sciences – Forces and Motion, Energy

Years:

4 & 7-8
Learning Connections

Student Skill Summary

  • Inquiry and Exploration

Australian Curriculum Connections - Version 9.0

Sub StrandContent Descriptor
Physical SciencesThe study of Physical Sciences develops understanding of forces and motion, and matter and energy. Students investigate how an object’s motion is influenced by a range of forces, such as frictional, magnetic, gravitational and electrostatic, and learn how to represent and predict these interactions. They develop an increasingly rich concept of energy and how energy transfer is associated with phenomena involving motion, heat, sound, light and electricity. They appreciate that concepts of force, motion, matter and energy apply to systems ranging in scale from atoms to the universe itself.

Australian Curriculum Connections - Version 8.4

Sub StrandContent Descriptor
Physical SciencesPhysical Sciences is concerned with understanding the nature of forces and motion, and matter and energy. Students gain an understanding of how an object’s motion is influenced by a range of forces such as frictional, magnetic, gravitational and electrostatic forces. They develop an understanding of the concept of energy and how energy transfer is associated with phenomena involving motion, heat, sound, light and electricity. They appreciate that concepts of force, motion, matter and energy apply to systems ranging in scale from atoms to the universe itself.
Sub StrandContent CodeContent Descriptor
Physical SciencesACSSU117Change to an object’s motion is caused by unbalanced forces, including Earth’s gravitational attraction, acting on the object
ACSSU155Energy appears in different forms, including movement (kinetic energy), heat and potential energy, and energy transformations and transfers cause change within systems
Sub StrandYear LevelContent TopicContent CodeContent Descriptor
Nature and Development of Science7Scientific Knowledge Changes Our Understanding of the WorldACSHE119Scientific knowledge has changed peoples’ understanding of the world and is refined as new evidence becomes available
8Scientific Knowledge Changes Our Understanding of the WorldACSHE134Scientific knowledge has changed peoples’ understanding of the world and is refined as new evidence becomes available