36. Force-Field of Neurophysiology and Force-Field of Acoustic Space
Subject of Study 6 –
Scientifically Studying the Universal Intuive Harmony-Potential
of
UNIVERSAL CONSCIOUSNESS – the Integration of Universal Cognition & Creation – within
the Universal Evoluion of our Cosmic Neurophysiology
Through the Integration of the Force-Field of the Acoustic
Space and the Field of our Neurophysiology
During / by the Integrated Analysis and Synthesis of the Sound
Seminar Series
The mechanics of the basic sound at the transition from the force-field of the
acoustic space to the field of our neurophysiology
The mechanics of the overtone spectrum of the sound at the transition from the
force-field of the acoustic space to the field of our neurophysiology
The mechanics of the periodic vibration of the sound at the transition from the
force-field of the acoustic space to the field of our neurophysiology
The mechanics of the wave sequence of the sound at the transition from the force-field
of the acoustic space to the field of our neurophysiology
The mechanics of the aperiodic vibration of the sound at the transition from
the force-field of the acoustic space to the field of our neurophysiology
The mechanics of the attack of the sound at the transition from the force-field
of the acoustic space to the field of our neurophysiology
The mechanics of the decay of the sound at the transition from the force-field
of the acoustic space to the field of our neurophysiology
The overtone mechanics the sound at the transition from the force-field of the
acoustic space to the field of our neurophysiology
The mechanics of the vowel at the transition from the force-field of the acoustic
space to the field of our neurophysiology
The mechanics of the formants at the transition from the force-field of the acoustic
space to the field of our neurophysiology
The mechanics of the unvoiced consonant at the transition from the force-field
of the acoustic space to the field of our neurophysiology
The mechanics of the voiced consonant at the transition from the force-field
of the acoustic space to the field of our neurophysiology
The mechanics of the sound of the combination of consonant and vowel at
the transition from the force-field of the acoustic space to the field of our
neurophysiology
Eigenfunction of the sound of the combination of vowel and consonant at
the transition from the force-field of the acoustic space to the field of our
neurophysiology
Eigenfunction of the voiced consonant at the transition from the force-field
of the acoustic space to the field of our neurophysiology
Eigenfunction of the unvoiced consonant at the transition from the force-field
of the acoustic space to the field of our neurophysiology
Eigenfunction of the formants at the transition from the force-field of the acoustic
space to the field of our neurophysiology
Eigenfunction of the vowel at the transition from the force-field of the acoustic
space to the field of our neurophysiology
Eigenfunction of the overtone mechanics of the sound at the transition from the
force-field of the acoustic space to the field of our neurophysiology
Eigenfunction of the decay of the sound at the transition from the force-field
of the acoustic space to the field of our neurophysiology
Eigenfunction of the attack of the sound at the transition from the force-field
of the acoustic space to the field of our neurophysiology
Eigenfunction of the aperiodic vibration of the sound at the transition from
the force-field of the acoustic space to the field of our neurophysiology
Eigenfunction of the wave sequence of the sound at the transition from the force-field
of the acoustic space to the field of our neurophysiology
Eigenfunction of the periodic vibration of the sound at the transition from the
force-field of the acoustic space to the field of our neurophysiology
Eigenfunction of the overtone spectrum of the sound at the transition from the
force-field of the acoustic space to the field of our neurophysiology
Eigenfunction of the basic sound at the transition from the force-field of the
acoustic space to the field of our neurophysiology