HOW WATER SENSES EMOTIONS AND THOUGHTS

by Alpha Lo, with consultation from Karen McChrystal, MA        May 2, 2005

Masaru Emoto has discovered that water responds to how we think and feel. www.hado.net/

How does water do this?
We propose there are four basic steps in this process.

1. EMOTIONS AND THOUGHTS AFFECT THE ELECTRICAL CURRENTS IN OUR BODY

Our nervous system, our heart, our auras, our meridians have electrical currents. The behavior of these currents correlates with the state of our emotions, thoughts and level of consciousness.

The currents in the different systems of the body are interrelated and affect each other. The strongest current is the heart and so it is the most important.

2. THE CURRENTS IN THE HEART EMIT AN ELECTROMAGNETIC FIELD

The heart current is made of flowing currents of ions and electrons. These ions and electrons can hit an atom in the heart pacemaker cells causing that atom to gain in energy. (The pacemaker cells are the cells in the heart which can change from negative to positive charge and carry the current of the heart.) The atom can then release some of that extra energy in the form of photons. These photons form the electromagnetic field that is emitted from the heart.

If one is feeling negative emotions like anger, guilt, sadness, then the heart currents will be in an incoherent state. This causes the photons emitted to be incoherent with each other.

If one is in a higher positive state, feeling love, peace, bliss or compassion, then the heart currents will be in a coherent state. They cause the photons emitted to be coherent with each other.

3. THE ELECTROMAGNETIC FIELD FORMS PATTERNS

If you drop pebbles into a lake, the resulting ripple pattern is called an interference pattern. If you drop pebbles at random times into a lake, the ripples will cancel each other out. If you drop pebbles at different places at the same time, the ripples can add up. There will be places where the troughs or the waves add up, giving a bigger trough. There will be places where the crests add up, giving bigger crests. When troughs or crests add together this is called constructive interference. And there will be places where the waves will cancel each other out, creating a flat place. The cancellation of waves is called destructive interference. The places where the troughs and crests add together are called anti-nodes, and the places where they cancel are called nodes.

The arrangement of anti-nodes and nodes in the interference pattern can be extraordinarily complex geometrical designs. Different heart currents will give rise to different types of geometrical patterns.

4. THE ELECTROMAGNETIC FIELD INTERACTS WITH WATER

The water is attracted electromagnetically to the coherent light. The coherent light is strongest at the points where constructive interference occurs. So the water will migrate to those places in the geometrically patterned electromagnetic field.

The water and the light become quantumly entangled at those places of constructive interference.

This means that when we are in higher emotional states, and we direct our feeling of, say, love or compassion, to a container of water, the water will freeze into beautiful geometrical patterns.

WAYS OF AFFECTING WATER

There are different ways a person can influence water. One is by having a person near the water; a second is by having a person far away sending intention to the water; and a third is by putting labels with different messages on vials of water.

The discussions in the above discussion were about how the emotional state of a person near the water can affect the structure of the water itself.

PROPOSED EXPERIMENTAL PROCEDURE TO TEST THEORY

We present here a method to test the theory in the above discussion.

The experimental setup includes the subject(s) sitting within 8 ft of the water (as we think the heart’s electromagnetic field is strongest within an 8 ft radius). We then find various ways to induce the subject into a variety of states of consciousness and a variety of emotions.

We compare the coherence of the person’s heart with the incidence of symmetric well defined structures in the water that has been placed near the subject.
To measure the coherence of the person’s heart we would put ECG’s at various places near the heart.

To measure the incidence of symmetric well defined structures in the water, we can do Raman spectroscopy on the water after it is frozen, following Emoto’s procedure. The width of the frequency bands in the Raman spectroscopy should give an indication of how well defined the structures are - the narrower the more defined. (In a related water experiment, a specially prepared Penta water had narrower Raman spectroscopy frequency bands.)

By then plotting the coherence of the heart’s ECG vs width of Raman frequency bands we should be able to see if there is a correlation between the state of a person’s heart and the state of the water.