July 29, 2015

What All the Screaming Is about

An analysis of the acoustical characteristics of screams found that the sounds are unusually rough, that is, they rapidly change in frequency, which has an alarming effect on the listener's brain

By Karen Hopkin

Illustration of a Bohr atom model spinning around the words Science Quickly with various science and medicine related icons around the text

SUBSCRIBE TO Science Quickly

Apple | Spotify | YouTube | RSS

Join Our Community of Science Lovers!

[Scream sound]

Got your attention? Thought so. But what is it about a piercing shriek that really turns our heads? It’s what it does to our brains. The acoustical properties of the human scream poke at the neural circuits that control fear. That’s according to a study in the journal Current Biology. [Luc H. Arnal et al, Human Screams Occupy a Privileged Niche in the Communication Soundscape]

Our every waking moment is filled with noise, from planes flying overhead to various creatures scrambling underfoot. But a heartfelt cry can cut through all that. So what’s so special about the sound of a screech?

On supporting science journalism

If you're enjoying this article, consider supporting our award-winning journalism by subscribing. By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today.

To find out, researchers prepared a sampler of screams from YouTube videos, popular films and excited volunteers. [Wilhelm Scream sound] If that screech sounded familiar, that’s because it’s the famous Wilhelm Scream, a stock sound effect heard in everything from Bugs Bunny to Star Wars.

The scientists analyzed the acoustical characteristics of the various screams. And they found these alarming sounds are not only loud, they’re particularly rough. That is, they rapidly change in frequency. Normal speech is relatively smooth, with frequencies ranging only between four and five Hertz, or cycles per second. But a shriek can swiftly fluctuate between 30 and 150 Hertz—a range that can make your hair stand on end.

When the researchers asked people to rate how frightening screams were, they found that more roughness meant more terrifying. And increasing roughness of the sound corresponded to greater activation of the fear center of the brain.

Only one other noise scored as high as screams in terms of roughness [car alarm sound]. Which, ironically, is enough to make you [scream sound].

—Karen Hopkin

[The above text is a transcript of this podcast.]

It’s Time to Stand Up for Science

If you enjoyed this article, I’d like to ask for your support. Scientific American has served as an advocate for science and industry for 180 years, and right now may be the most critical moment in that two-century history.

I’ve been a Scientific American subscriber since I was 12 years old, and it helped shape the way I look at the world. SciAm always educates and delights me, and inspires a sense of awe for our vast, beautiful universe. I hope it does that for you, too.

If you subscribe to Scientific American, you help ensure that our coverage is centered on meaningful research and discovery; that we have the resources to report on the decisions that threaten labs across the U.S.; and that we support both budding and working scientists at a time when the value of science itself too often goes unrecognized.

In return, you get essential news, captivating podcasts, brilliant infographics, can't-miss newsletters, must-watch videos, challenging games, and the science world's best writing and reporting. You can even gift someone a subscription.

There has never been a more important time for us to stand up and show why science matters. I hope you’ll support us in that mission.

Thank you,

David M. Ewalt, Editor in Chief, Scientific American