Placeholder Image

字幕列表 影片播放

  • Music has charms to soothe a savage beast, especially if the music is by Insane Clown

  • Posse and the beast is a Juggalo.

  • Friends, Romans, countrymen, lend me your ears, I’m Jules here for DNews.

  • Why do we like the music we like?

  • I’m not talking about genre; there’s no scientific explanation for why people like

  • yodelling, at least not in this episode.

  • No I mean something more fundamental.

  • Why do we like the very sounds that make up all the different genres?

  • What is it about certain combinations of notes that strike a chord with us?

  • Well, for hundreds of years it was thought that the answer was: physics.

  • Sound waves from musical notes that are certain intervals apart interfere with each other,

  • and depending on the interval the new wave form they create will have a distinct pattern.

  • Notes a 5th apart like C to G create a nice repeating pattern and we call this consonance.1

  • But lower that G just a half step to an F sharp and suddenly the new waveform pattern

  • goes crazy: dodging, dipping, diving, ducking and dodging all over the place.

  • And this is called dissonance.2

  • If a dissonant chord uses two notes that are close together, like C and C sharp, then the

  • waveform they generate will be confusing in your brain.

  • The frequencies are too close together for your auditory nerves to distinguish, and the

  • wave interference will make it sound like it’s one weird note that’s rapidly getting

  • louder and softer, this is known as beating.1

  • 19th century German physicist and physiologist Hermann von Helmholtz pointed at the beating

  • effect and said that it was the reason we find dissonant chords ugly and don’t use

  • them in our music.

  • The idea has a nice ring to it, but lately it’s been turned on its ear.

  • In 2012 Marion Cousineau of the University of Montreal and Josh McDermott of New York

  • University teamed up to test if beating was the reason that people are averse to dissonance.

  • They gathered a group of people who couldn’t distinguish pitch, melody, or sing in tune,

  • which is a “musical disordercalledamusia”.

  • They played them and a control group, consonant and dissonant chords, and sounds with and

  • without beating.

  • As expected, the amusics couldn’t distinguish consonant from dissonant chords, and weren’t

  • put off by them like the control group was.

  • Surprisingly though, the group with amusia disliked the beating just as much as their

  • karaoke capable counterparts.3 This suggests that, yes, while beating may play a part in

  • our dislike of dissonant sounds, it’s not the only factor at play.

  • McDermott reasoned that maybe were conditioned to like the sounds we do by the music were

  • exposed to.3 In order to study this though, he’d have to find a group of people who

  • had never heard western music, and that wasn't easy.

  • Our music is ubiquitous, it’s impossible to escape Taylor Swift, musically or otherwise-

  • we used to date.

  • But McDermott managed to find 12,000 people who had never dated or heard the dulcet tones

  • of T-dawg Swift.

  • As an assistant professor at MIT7, Mcdermott teamed up with Ricardo Godoy of Brandeis University

  • to study a remote Amazonian tribe called the Tsimane . The Tsimane are a farming and foraging

  • society with limited exposure to western culture.

  • McDermott and Godoy played a variety of sounds to 100 of them, as well as nearby Bolivian

  • farmers, city dwellers in Bolivia’s capital La Paz, and American musicians and nonmusicians.

  • They found that across the 4 of the 5 groups, the preference of consonant chords to dissonant

  • ones was always there to some degree.

  • Except within the Tsimane tribespeople.

  • They showed no preference for one sound over the other whatsoever.

  • McDermott and Godoy made sure that they weren’t dealing with an entire tribe of amusics, they

  • responded to what is calledacoustic roughness”, or rapidly modulating unpleasant tones, the

  • same as anyone in the other test groups.

  • This lead the researchers to conclude that we learn to like the sounds were exposed

  • to, and preference for chords is not something hard wired.

  • So, when you hear a song on the radio for the first time and hate it, but then can’t

  • stop bumping your head to it the next time you hear itfeel free to blame science

  • for your new Katy Perry addiction.

  • If youre an avant garde musician out to change the world’s perception of music,

  • it’d help if you had a website to spread your sound.

  • Yoko Ono dot com is still available.

  • No domain extension will help you tell your story like a DOT COM or DOT NET domain name.

  • And because you watch DNews, you can get 15% off Domain Dot Com’s names and web hosting

  • by using the code DNews when you check out.

  • The four right chords can make me cry, especially if theyre played loud enough to burst my

  • eardrums.

  • To learn how sounds can physically break you, check out Julian’s video here.

  • Do you think you could ever learn to like the sound of a cat walking on a piano?

Music has charms to soothe a savage beast, especially if the music is by Insane Clown

字幕與單字

單字即點即查 點擊單字可以查詢單字解釋

B1 中級

好的音樂背後有公式嗎? (Is There A Formula Behind Good Music?)

  • 104 13
    songwen8778 發佈於 2021 年 01 月 14 日
影片單字