the best fiend is water.
by Henryk Szubinski
First:
When we want to sound as we feel ,or even avoid the tensions that we have stored in our memory that
may sometimes come out wrong because of our own need to have this memorized so that when one
responds in this way to others, the right frequency and the right brain center you're storing the data
in, may define the advantage of being right all the time. To do this may take some courses in lingustic
science, but you don,t need to be some mathematics genius to know why.
or it may be, as this article will show, that drinking water, with the matched frequency of vibration may
help the brain to attune to the frequency you want to be heard at so that you can start any conversation
and enjoy doing so.
from:
www.ncbi.nlm.nih.gov/pubmed/29789504
date 2018
June 4
time, 15:48
AbstractThe long history of poetry and the arts, as well as recent empirical results suggest that the way a word sounds (e.g., soft vs. harsh) can convey affective information related to emotional responses (e.g., pleasantness vs. harshness). However, the neural correlates of the affective potential of the sound of words remain unknown. In an fMRI study involving passive listening, we focused on the affective dimension of arousal and presented words organized in two discrete groups of sublexical (i.e., sound) arousal (high vs. low), while controlling for lexical (i.e., semantic) arousal. Words sounding high arousing, compared to their low arousing counterparts, resulted in an enhanced BOLD signal in bilateral posterior insula, the right auditory and premotor cortex, and the right supramarginal gyrus. This finding provides first evidence on the neural correlates of affectivity in the sound of words. Given the similarity of this neural network to that of nonverbal emotional expressions and affective prosody, our results support a unifying view that suggests a core neural network underlying any type of affective sound processing.
more:
Water frequency patterns have been around for some time and the concept of their ability to emit as well as absorb various frequency patterns when vibrated to the specific
frequency is known.
So to make an example of the frequency with the water and with the brains center you're associating to,take a look at the following images of water behaving as though it were awake like our human senses are awake.
by Henryk Szubinski
First:
When we want to sound as we feel ,or even avoid the tensions that we have stored in our memory that
may sometimes come out wrong because of our own need to have this memorized so that when one
responds in this way to others, the right frequency and the right brain center you're storing the data
in, may define the advantage of being right all the time. To do this may take some courses in lingustic
science, but you don,t need to be some mathematics genius to know why.
or it may be, as this article will show, that drinking water, with the matched frequency of vibration may
help the brain to attune to the frequency you want to be heard at so that you can start any conversation
and enjoy doing so.
from:
www.ncbi.nlm.nih.gov/pubmed/29789504
date 2018
June 4
time, 15:48
AbstractThe long history of poetry and the arts, as well as recent empirical results suggest that the way a word sounds (e.g., soft vs. harsh) can convey affective information related to emotional responses (e.g., pleasantness vs. harshness). However, the neural correlates of the affective potential of the sound of words remain unknown. In an fMRI study involving passive listening, we focused on the affective dimension of arousal and presented words organized in two discrete groups of sublexical (i.e., sound) arousal (high vs. low), while controlling for lexical (i.e., semantic) arousal. Words sounding high arousing, compared to their low arousing counterparts, resulted in an enhanced BOLD signal in bilateral posterior insula, the right auditory and premotor cortex, and the right supramarginal gyrus. This finding provides first evidence on the neural correlates of affectivity in the sound of words. Given the similarity of this neural network to that of nonverbal emotional expressions and affective prosody, our results support a unifying view that suggests a core neural network underlying any type of affective sound processing.
more:
Water frequency patterns have been around for some time and the concept of their ability to emit as well as absorb various frequency patterns when vibrated to the specific
frequency is known.
So to make an example of the frequency with the water and with the brains center you're associating to,take a look at the following images of water behaving as though it were awake like our human senses are awake.
Fill the glass with clear water and relate to the frequency patterns that may be easily be visualized as their activation of the right "sound center of your voice" in the part of the brain you feel comfortable with.
The basic reason why people who do speeches have to have a drink of water sometimes to clear their throat, might also be the way to avoid the coughs you sometimes hear when you're at the movies with your girl friend.
The basic reason why people who do speeches have to have a drink of water sometimes to clear their throat, might also be the way to avoid the coughs you sometimes hear when you're at the movies with your girl friend.