The Speed Reading Course
By Peter Shepherd
& Gregory Unsworth-Mitchell
Email: shepherd@trans4mind.com
Web site: Tools for Transformation
Copyright © 1997 Peter Shepherd
The Basics of Reading
Introduction
We all learn to read at school, after a fashion. But for most of us, this is not an
optimal use of our brain power. In this course you will learn to better use the left
brain's focused attention combined with the right brain's peripheral attention, in
close harmony. Good communication between the brain hemispheres is a pre-
requisite for creative thinking and also a sense of well-being, where thoughts and
feelings are integrated.
As you probably expect, this course will also teach you to read much faster and at
the same time, to remember more of what you have read. These are obviously
great advantages.
There is another major benefit. Most of us, as we read, 'speak' the words in our
heads. It is this subvocalisation that holds back fast reading and it is unnecessary.
It is possible to have an inner speech, a kind of 'thought awareness,' that isn't
linked to the tongue, mouth and vocal chord muscles, and this is much faster and
more fluent. Cutting out the identification of vocalisation and the stream of
thought gives a surprising by-product. Many of us think that our constant
subvocalised 'speaking voice' is who we are. Finding out that you can think and
be aware without a vocal stream of words, opens up your consciousness to the
usually unrecognised domain of intuition and spiritual awareness. You'll have a
better sense of who you really are. Try it and see!
The Definition of Reading
Reading may be defined as an individual's total inter-relationship with symbolic
information. Reading is a communication process requiring a series of skills. As
such reading is a thinking process rather than an exercise in eye movements.
Effective reading requires a logical sequence of thinking or thought patterns, and
these thought patterns require practice to set them into the mind. They may be
broken down into the following seven basic processes:
1. Recognition: the reader's knowledge of the alphabetic symbols.
2. Assimilation: the physical process of perception and scanning.
3. Intra-integration: basic understanding derived from the reading material
itself, with minimum dependence on past experience, other than a
knowledge of grammar and vocabulary.
4. Extra-integration: analysis, criticism, appreciation, selection & rejection.
These are all activities which require the reader to bring his past experience
to bear on the task.
5. Retention: this is the capacity to store the information in memory.
6. Recall: the ability to recover the information from memory storage.
7. Communication: this represents the application of the information and may
be further broken down into at least 4 categories, which are:
* Written communication;
* Spoken communication;
* Communication through drawing and the manipulation of objects;
* Thinking, which is another word for communication with the self.
Many problems in reading and learning are due to old habits. Many people are
still reading in the way that they were taught in elementary school. Their reading
speed will have settled to about 250 w.p.m. Many people can think at rates of 500
w.p.m. or more, so their mind is running at twice the speed of their eyes. A
consequence is that it is easy to lapse into boredom, day-dreaming or thinking
about what you want to do on the weekend. Frequently, it is through this type of
distraction that you find you have to re-read sentences and paragraphs, and you
find as a result, ideas are difficult to understand and remember.
The basic problem - the mismatch between thinking speed and reading speed -
arises for the most part from the inadequate methods by which reading is taught.
Since the War there have been two main approaches: the Look-Say method and
the Phonic method. Both methods are only semi-effective. In the Phonic method
a child is first taught the alphabet, then the different sounds for each of the
letters, then the blending of sounds and finally, the blending of sounds which
form words. This method works best with children who are left-brain dominant.
In contrast, the Look- Say method works best with children who are right-brain
dominant. It teaches a child to read by presenting him with cards on which there
are pictures of objects, the names of which are printed clearly underneath. By
using this method a basic vocabulary is built up, much in the manner of learning
to read Chinese. When a child has built up enough basic vocabulary, he
progresses through a series of graded books similar to those for the child taught
by the Phonic method, and eventually becomes a silent reader. In neither of the
above cases is a child taught how to read quickly and with maximum
comprehension and recall. An effective reader has usually discovered these
techniques all by himself.
Neither the Look-Say method nor the Phonic method, either in isolation or in
combination, are adequate for teaching an individual to read in the complete
sense of the word. Both these methods are designed to cover the first stage of
reading, the stage of recognition, with some attempt at assimilation and intra-
integration, but children are given little help on how to comprehend and integrate
the material properly, nor on how to ensure it is remembered. The methods
currently used in schools do not touch on the problems of speed, retention, recall,
selection, rejection, concentration and note taking, and indeed all those skills
which can be described as advanced reading techniques.
In short, most of your reading problems have not been dealt with during your
initial education. By using appropriate techniques, the limitations of early
education can be overcome and reading ability improved by 500% or more. For
example, skipping back over words can be eliminated as 90% of back-skipping is
unnecessary for understanding. The 10% of words that do need to be
reconsidered are probably words which need to be looked up in a dictionary and
clearly defined.
GOLDEN RULE: When studying this course, and indeed, whenever reading
passages that you want to understand and make use of, make sure never to
pass by a word or concept that you do not understand. If you do pass by a
misunderstood word or concept, the rest of the text will probably become
incomprehensible, and you will feel distracted and bored. If it's worth
reading at all, then you owe it to yourself to define any word you're not sure
of, or find the misunderstood word(s) in the concept that is unclear and sort
that out before going further. If your studies bog down, go back to where
you were doing well, clear up your understanding and start off again from
that point.
Techniques in this course will reduce the time for each fixation (the assimilation
of a group of words simultaneously) to less than a quarter of a second, and the
size of fixation can be increased from one or two short words to as many as five
words or half a line. Your eyes will be doing less physical work; rather than
having as many as 500 tightly focused fixations per page, you will be making
about 100, each of which is less fatiguing, and reading speed will exceed 1,000.
w.p.m. on light material.
The Eye and its Movements
In order to understand how we read and how reading may be improved, we must
first look a little at how the eye works. Light entering the eye is focused by the
lens onto the retina, which lines the inside of the eye. The retina itself consists of
hundreds of millions of tiny cells responsive to light. Some cells - the cones -
respond to specific colours; others - the rods - to the overall light intensity. These
cells are connected to a web of nerves extending over the retina, which relay
information to the visual cortex.
The centre of the retina, called the fovea, is a small area in which the cells are
much more tightly packed, so that the perception of images falling on the fovea is
much sharper and more detailed than elsewhere on the retina. When we focus our
attention on something, the light from that item is focused onto the fovea - this is
called a fixation.
A reader's eyes do not move over print in a smooth manner. If they did, they
would not be able to see anything, because the eye can only see things clearly
when it can hold them still. If an object is still, the eye must be still in order to
see it, and if an object is moving, the eye must move with the object in order to
see it. When you read a line, the eyes move in a series of quick jumps and still
intervals. The jumps themselves are so quick as to take almost no time, but the
fixations can take anywhere from a quarter to one and a half seconds. At the
slowest speeds of fixation a student's reading speed would be less than one
hundred w.p.m.
Thus the eye takes short gulps of information. In between it is not actually seeing
anything; it is moving from one point to another. We do not notice these jumps
because the information is held over in the brain and integrated from one fixation
to the next so that we can perceive a smooth flow. The eye is rarely still for more
than half a second. Even when you feel the eye is completely still (as when you
look steadily at a fixed point such as the following comma), it will in fact be
making a number of small movements around the point. If the eye were not
constantly shifting in this way, and making new fixations, the image would
rapidly fade and disappear. The untrained eye takes about a quarter of a second at
each point of fixation, so it is limited to about four fixations per second. Each
fixation of an average reader will take in two or three words, so that to read a
line on this page probably takes between three and six fixations. The duration of
the stops and the number of words taken in by each fixation will vary
considerably, depending on both the material being read and the individual's
reading skill.
Although the sharpest perception occurs at the fovea, images that are off-centre
are still seen, but less clearly. This peripheral vision performs a most valuable
function during reading. Words that lie ahead of the current point of fixation will
be partially received by the eye and transmitted to the brain. This is possible
because words can be recognised when they are in peripheral vision and the
individual letters are too blurred to be recognised. On the basis of this slightly
blurred view of what is coming, the brain will tell the eye where to move to next.
Thus the eye does not move along in a regular series of jumps, but skips
redundant words and concentrates on the most significant (useful and
distinguishing) words of the text.
Immediate memory span depends on the number of 'chunks' rather than the
information content. When we read, we can take in about five chunks at a time.
A chunk may be a single letter, a syllable, a word, or even a small phrase - the
easier it is to understand, the larger will be the chunks.
In the case of a skilled reader, the fixation points tend to be concentrated towards
the middle of a line of print. When the eye goes to a new line, it does not usually
start at the beginning, instead it starts a word or two from the edge. The brain has
a good idea of what is to come from the sense of the previous lines and only
needs to check with peripheral vision that the first few words are as anticipated.
Similarly, the eye usually makes its last fixation a word or two short of the end
of a line, again making use of peripheral vision to check that the last few words
are as expected.
The rhythm and flow of the faster reader will carry him comfortably through the
meaning, whereas the slow reader will be far more likely to become bored and
lose the meaning of what he is reading. A slow reader, who pauses at every word
and skips back reading the same word two or three times, will not be able to
understand much of what he reads. By the end of a paragraph the concept is lost,
because it is so long since the paragraph was begun. During the process of re-
reading, his ability to remember fades, and he starts doubting his ability to
remember at all.
There is a dwindling spiral of ability. The person re-reads more, then loses more
trust in his memory and finally concludes that he doesn't understand what he is
reading. For over a hundred years, experts in the field of medical and
psychological research have concluded that most humans only use from 4% to
10% of their mental abilities - of their potential to learn, to think and to act.
Speeding up a process such as reading is a very effective method of enabling a
people to access a larger proportion of the 90-95% of the mental capacity that he
is not using. When a person is reading rapidly, he is concentrating more, and
when he can raise his speed of reading above about 500 w.p.m. with maximum
comprehension, he is also speeding up his thinking. New depths of the brain
become readily accessible.
In addition, accelerated reading can reduce fatigue. Faster reading improves
comprehension, because the reader's level of concentration is higher, and there is
less cause for him to develop physical tensions such as a pain in the neck or a
headache. A further benefit is the improvement of the completeness of thought.
E.g. try watching a 90 minute video tape in 9 ten-minute sections; comprehension
will be much less than it would be had the video been presented in its entirety.
There is an optimum reading speed for maximum comprehension, which is
proportional to your top speed. This rate will vary from one type of material to
another, and finding the best rate for the material you are reading is critical for
good comprehension.
Test of Reading Speed
Choose a novel or book that you are interested in and can read easily. Measure
the time it takes to read five pages. Your reading speed can then be calculated
using the following formula:
w.p.m. (speed) = (number of pages read) times (number of words per average
page), divided by (the number of minutes spent reading).
Are you a Left-Brain Reader or a Right-Brain
Reader?
Recently researches were carried out in the United States to determine the
difference between a left-brain reader and a right-brain reader. A special
apparatus was constructed, consisting of a television screen to present the reading
material, with a cursor that the subject had to fixate upon. Eye-movements were
monitored electronically, so the cursor would move when the subject moved his
eyes. The equipment could be set up in two modes. In the first mode, material to
the left of the cursor would blank out on the screen, if the subject attempted to
move his fixation point to the right of the cursor. In the second mode, material to
the right of the cursor would blank out, if the subject attempted to move his
fixation point to the left of the cursor.
In the first (left-brain) mode, when words to the left of the cursor blanked out,
preventing the subject from regressing or back-skipping, this duplicated the
habitual pattern of a left-brain reader, who always reads one or more words ahead
of a particular fixation point. In the second (right-brain) mode, when words to
the right of the cursor blanked out, preventing the subject from anticipating by
reading one or two words ahead of the fixation point, this duplicated the habitual
pattern of a right-brain reader, who tends to re-read the words leading up to a
particular fixation point.
This equipment was tested on a group of 30 subjects. When the equipment was
set- up in the left-brain mode, the maximum observed average reading speed of
the group was 1600 w.p.m., and when the equipment was set-up in the right-
brain mode, the maximum observed average reading speed of the group was 95
w.p.m.; a difference of 17:1. Note: with material presented in the left-brain mode
the average reading speed of the group was raised from 500 w.p.m. to 1600
w.p.m.; it was more than trebled.
Without the specialised equipment described above, this test is somewhat
subjective, although it should give you a good indication. The steps are as
follows:
1. Take a novel and read this silently whilst running your finger along the line
of print as you read it.
2. Note carefully: How far are you reading ahead of your fixation point? The
fixation point is determined by your finger position.
3. Do you find that it is difficult to read ahead of the fixation point? Do you
find that you are holding on to the two or three words you have just read?
If the answer to 2. is yes, and you are reading ahead of the fixation point, you are
a left-brain reader. If the answer to 3. is yes, and attention is drawn back to the
words that you have already read, then you are a right-brain reader.
Visual Guides
A visual guide is a pointer, such as the end of a pencil or a fingertip, moved
along underneath a line of print. The reason children are discouraged from
pointing to the words as they read them, is that stopping to point at each
individual word can indeed slow down reading. But if instead, the finger is
moved along smoothly underneath the line of text, it can help to speed up reading
considerably, for three reasons:
1. If the eye is trained to follow the visual guide, then most unnecessary back-
skipping is eliminated.
2. Deliberately speeding up the visual guide will help the eye to move along
faster.
3. As the eye moves faster it is encouraged to take in more words with each
fixation. This increases the meaningful content of the material - each chunk
makes some sense - so that comprehension actually approves.
The following practical procedures are divided into six sections:
A. Preliminary Exercises, to teach a better method of inner speech.
B. Speed Perception, to improve your capacity to duplicate;
C. Pacing & Scanning Techniques, to improve your initial understanding
at speed;
D. In-Depth Reading Techniques, including the use of keywords and
mindmaps to improve depth of understanding;
E. Visual Reading Techniques, to improve retention and recall.
F. Defeating the Decay of Memories, to apply the newly acquired speed
of thought to learning new information.
Therefore, the following selection of exercises reflect the three dimensions of
Duplication, Understanding, and Memory.
A. Preliminary Exercises
Subvocalisation & the Thought-Stream
There are two types of reading: the first type is a compulsive speaking aloud of
words as they are read. This may be at an inaudible and sub-conscious level, but
is nevertheless expressing perceived words in equivalent movements of the tongue
and larynx - a kinaesthetic representation. We will call this process
'subvocalisation' on this course. The second type we will call 'thought-stream',
and this is consists of understanding and imagery only, with no vocal or subvocal
expression.
Generally speaking, subvocalisation is unnecessary to the adult reader, except
perhaps when reading poetry (in which case rhythm, rhyme, and alliteration are
an important component, and so subvocalisation may be more enjoyable when
poetry is read silently). However, subvocalisation limits the maximum reading
speed to about 300 w.p.m. +/- 20%. In contrast, a trained reader may read at
more than 1000 w.p.m. with a pure thought-stream.
A thought-stream is essential for full understanding. Although it may be possible
to read light material such as a novel without using a thought-stream at all,
memory will be impaired. The thought-stream is particularly important when
reading abstract material that cannot be easily visualised, and when long and
complicated sentence constructions are used. When this type of material is read
and the thought-stream is su
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