Yes, as the shape of the vocal tract changes, different frequencies receive more or less boosting by the resonances of the vocal tract. So the differences we hear between 'see' and 'sue' are due to changes in which harmonics are stronger. In the case of 'see,' harmonics with frequencies around 300 Hz and 2000 Hz are strongest, while in the case of 'sue,' frequencies around 300 Hz and 1000 Hz are strong.
Hi, thanks for your note. Some of it was I was about to stop singing, and wasn't singing as loud, so some of the higher harmonics were not as strong (when we sing louder, the vocal folds tend to close more firmly each cycle, and firm closure and a rapid shut off of the flow tends to generate more energy in high frequencies). Second, the /u/ vowel has low first and second resonances (around 300 Hz and 1000 Hz). So above that things won't be as strong simply because there is a gap between that second resonance at around 1000 Hz and the third one up around 3000 Hz.
@@johnnix3990 Thank you💗 I have installed the latest one, but wanted to get the one you are using as it is the same version that I see Robert Lunte using when format tuning, so I hoped to follow along with him when practicing singing.
Perfect video!
Thanks!
so what makes different vowels? instead of fundamental frequency, it is actually different power of different harmonics that make the differences?
Yes, as the shape of the vocal tract changes, different frequencies receive more or less boosting by the resonances of the vocal tract. So the differences we hear between 'see' and 'sue' are due to changes in which harmonics are stronger. In the case of 'see,' harmonics with frequencies around 300 Hz and 2000 Hz are strongest, while in the case of 'sue,' frequencies around 300 Hz and 1000 Hz are strong.
why is the pattern of your OO vowel so different with that blank area in the spectrogram?
Hi, thanks for your note. Some of it was I was about to stop singing, and wasn't singing as loud, so some of the higher harmonics were not as strong (when we sing louder, the vocal folds tend to close more firmly each cycle, and firm closure and a rapid shut off of the flow tends to generate more energy in high frequencies). Second, the /u/ vowel has low first and second resonances (around 300 Hz and 1000 Hz). So above that things won't be as strong simply because there is a gap between that second resonance at around 1000 Hz and the third one up around 3000 Hz.
Pls share the buying link of the software
The version of the software shown in the video is no longer available. But a newer version is available at www.sygyt.com/en/
How harmonics are produced by the vocal folds at the same time
Is this version of the software available anywhere?
There is a much newer version available at www.sygyt.com/en/
@@johnnix3990 Thank you💗 I have installed the latest one, but wanted to get the one you are using as it is the same version that I see Robert Lunte using when format tuning, so I hoped to follow along with him when practicing singing.