UNIVERSITY OF THE FUTURE
UNIVERSITY OF THE FUTURE
SCIENTIFICALLY INTRODUCING UNIVERSALITY TO THE UNIVERSITY
. . .Deutsche Übersetzung in Arbeit

Home

Site Map

Motto

The Cosmic
Education Program

Introduction

Peter Hübner
Developer of the University

 

Faculty of PYTHAGORAS

Leading Thoughts

Leading Thoughts

Logical Path - Theory

Logical Path - Practice

Research & Development
Co-operative Projects

C U R R I C U L U M

Theoretical Fundamentals

CHRONOMEDICINE

Periodic Duration

Pain Sensitivity

Activity Rhythms

Cosmic Rhythms

Three Way Structure

Endogenous Rhythms

Muscular Rhythms

Pain Wave Rhythms

Circulation & Respiration

Puls Breath Frequency

Rhythms in Sleep

Therapeutic Changes

Inhalation & Heart Period

Mother & Child

Heart & Arterial Oscillation

Phase Coordination

Walk & Heart Rhythm

Breathing & Heart Rhythm

Autonomic Rhythm

Hierarchy of Rhythms

Spontaneous Rhythms

Muscular Blood
Circulation

Healing & Resistance

Spontaneous Rhythms

Conclusion

Literature

 

 

Astronomy of Mind EQ x IQ

Hall of Harmony

International Experts

Educational Program
Health

Scientific Research

International Media

International Congresses

Membership

Application to the University

 

 






Prof. Dr. med. Gunther Hildebrandt  • Chronobiological Aspects of Music Physiology



Experimental studies with a systematic variation of the phase relations between heart rhythm and pace rhythm have shown that the heart rate clearly decreases as an ex­pres­sion of increased economy, when the phase co-action of both rhythms is reconciled with the one which is also chosen for spontaneous walking and running (illustration 18).

The energy saving effects of the phase linking therefore also apply to the relations be­tween vegetative-autonomic and motor rhythms.





Illustration 18

The influence of the phase relationship between walk rhythm and heart rhythm (time of putting one's heel down within the heart period measured from the R-Point of the elec­tro­car­dio­gram) on the heart rate when walking (deviation from the average frequency) in 15 test subjects. The heartbeat of these subjects was made audible with a systematic delay. The de­crease of the heart rate is the largest when the heel comes down in the R-Point area. For a better overall view, the results are applied twice, one behind the other.

(According to dates by DIETRICH 1982)