The Theta Program plays a critical roll
in encouraging the expansion of consciousness. We are designing
the program to be played during one's sleep cycle so maximum
stimulation takes place. This program works in the top
Delta to Theta frequency but it also has some special frequencies
that encourage the correct stimulation of the brain. Our
goal has been to release programs that will stimulate the
Pineal and Pituitary glands.
With the decent of man, not only has the
brain shrunk, but over the centuries these glands have
withered to the
point of no longer functioning. We hope to use the Divine
Sciences to restimulate these master organs that are responsible
for the spiritual development of mankind.
A new study finds, the brains of people
diagnosed with Alzheimer's disease start shrinking up to
a decade before
symptoms appear. Researchers from Rush University Medical
Center in Chicago and Massachusetts General Hospital in
Boston did brain imaging tests on older adults with no
signs of memory loss.
Of the 33 people in the Mass General
group, eight developed Alzheimer's over the course of 11
years. In the Rush group,
seven of 32 people followed for an average of seven years
developed the disease. About 55% of those whose brains were
in the upper tertile (third) of atrophy developed Alzheimer's,
while none of
those whose brains in the bottom tertile (little or no
atrophy) developed Alzheimer's.
Among those
with moderate amounts of atrophy, about 20% developed
the disease. "
We could differentiate those who would decline from those
who would remain healthy," said senior study author
Leyla deToledo-Morrell, director of the graduate program
in neuroscience at Rush University Medical Center. Based
on the atrophy measurements, "we could even
determine how quickly they were going to develop Alzheimer's
disease," she added.
Like all waves, brain waves have a frequency,
measured in cycles per second or Hertz (abbreviated Hz),
which is the number of cycles the wave goes through in
one second. So, a lower Hertz number represents a slower
wave.
Brain waves are categorized by their frequency. There
are four kinds brain waves generally known to science and
measured by EEGs - alpha, beta, theta, and delta - and
one more that has been recently discovered now that EEGs
are becoming sensitive enough - gamma.
Beta brain waves, measured at 13-40
Hz, are the brain state of our normal waking consciousness.
Nearly
all forms of action, thinking, and problem solving are
done with a beta brain wave. Most people spend most of
their waking lives in a beta state.
Alpha brain waves, measured at 7-13 Hz, are the brain state
of relaxation and meditation. The alpha state is associated
with creativity and super learning, where the brain learns
at a faster and deeper level than it does in beta. Most
meditation and energy healing techniques cultivate and
utilize an alpha brain wave for relaxation and healing.
Theta
brain waves, measured at 4-7 Hz, are the brain state
of REM sleep (dreams), hypnosis, lucid
dreaming,
and the
barely conscious state just before sleeping and just after
waking. Theta is the border between the conscious and the
subconscious world, and by learning to use a conscious,
waking Theta brain wave we can access and influence the
powerful subconscious part of ourselves that is normally
inaccessible to our waking minds. While in the Theta state,
the mind is capable of deep and profound learning, healing,
and growth - it is the brain wave where our minds can connect
to the Divine and manifest changes in the material world.
Delta
brain waves, measured at less than 4 Hz, are the brain
state of deep sleep and unconsciousness.
Gamma brain waves,
measured at 40+ Hz, are the brain state of hyperalertness,
perception, and integration of sensory
input. When time seems to slow down during a car accident,
the brain is entering a high gamma state. When using
the Theta Healing technique the brain is actually moving
back and forth between the theta and
gamma
state.
The Brain as an Information Processing
System
The human brain contains about 10 billion nerve cells, or neurons. On average,
each neuron is connected to other neurons through about 10 000 synapses.
(The actual figures vary greatly, depending on the local neuroanatomy.) The
brain's network of neurons forms a massively parallel information processing
system. This contrasts with conventional computers, in which a single processor
executes a single series of instructions. Against this, consider the time
taken for each elementary operation: neurons typically operate at a maximum
rate of about 100 Hz, while a conventional CPU carries out several hundred
million machine level operations per second. Despite of being built with
very slow hardware, the brain has quite remarkable capabilities:
-
its performance tends to degrade gracefully
under partial damage. In contrast, most programs and
engineered systems are brittle: if you remove some
arbitrary parts, very likely the whole will cease to
function.
-
it can learn (reorganize itself) from
experience.
this means that partial recovery from damage is possible if healthy units
can learn to take over the functions previously carried out by the damaged
areas.
-
it performs massively parallel computations
extremely efficiently. For example, complex visual
perception occurs within less than 100 ms, that is,
10 processing steps!
-
it supports our intelligence and self-awareness.
(Nobody knows yet how this occurs.)
