Science,
and in particular physics, has made such great advances that it can almost be
said to have reached the limits of its field. At one time it was believed that
scientific research would lead to an understanding of the whole universe simply
through observation based on the five senses. Scientists considered that all phenomena
relating to the mind were derived from matter. By understanding matter completely,
the mind would also be understood. Nowadays very few scientists still believe
this, because the enormous amount of knowledge amassed about matter has not led
to a clearer understanding of the nature of the mind.
At the present time,
concepts about the reality of matter and mind fall into two main categories, or
models:
1. That the world of matter and the world of mind are like two sides
of one coin. That is, they are separate, but they interact with each other. Those
who maintain this view believe that these two realities are on opposite sides,
and each side must be independently studied and then integrated into one body
of knowledge.
2. That the world of matter and the world of mind are like two
rings. In this model, the borders of knowledge are pictured as a big ring, containing
within it a smaller ring. The inner ring is limited to its own circumference,
while the outer ring covers both its own area and that of the smaller one. That
is, one ring surrounds the other. If the larger ring is understood, then all is
understood, but if only the smaller ring is understood, such knowledge is still
incomplete.
Now if, in this model, the knowledge of matter is the smaller
ring, even if our knowledge covers the entire world of matter, still it is only
the smaller ring that is understood. The outer ring, which includes the mind,
is still not known. If, on the other hand, the outer ring is matter, then to know
the truth of matter will automatically be to know everything. Now which model
is more correct?
Many eminent physicists have said that the knowledge of science
is only partial, it is only a beginning. In terms of the model of the two rings,
it would seem that the knowledge of matter is only the inner ring, because it
is limited to the five senses. Beyond these senses we arrive at the world of symbols,
mathematical proofs, in relation to which we have Sir Arthur Eddington's words:
"We have learned that the exploration of the external world by the methods
of the physical sciences leads not to a concrete reality but to a shadow world
of symbols."[4]
Another eminent physicist, Max Planck, winner of the
Nobel Prize for Physics in 1918, and regarded as the father of modern Quantum
Theory, once stated that no sooner was one of science's mysteries solved than
another would arise in its place. He conceded the limitations of scientific truth
in these words:
"... Science cannot solve the ultimate mystery of nature.
And that is because, in the last analysis, we ourselves are part of nature, and,
therefore, part of the mystery that we are trying to solve."[5]
One scientist
went so far as to write:
"...the most outstanding achievement of twentieth-century
physics is not the theory of relativity with its welding together of space and
time, or the theory of quanta with its present apparent negation of the laws of
causation, or the dissection of the atom with the resultant discovery that things
are not what they seem; it is the general recognition that we are not yet in contact
with ultimate reality."[6]
So it has reached this stage: the most significant
advance of science is the realization that it is incapable of reaching the truth.
All it can lead to is a shadow world of symbols. If scientists accept this, then
it must be time to choose a new path: either to redefine the scope of science,
or to expand its field of research in order to attain a more holistic understanding
of nature.
If scientific research remains limited to its original scope, it
will become just another specialized field, incapable of seeing the overall picture
of the way things are. If, on the other hand, science is to lead mankind to a
true understanding of nature, it must expand its field of thought by redefining
its fundamental nature and transcending its present limitations.
The material
world: science's unfinished work
Fundamental questions remain unanswered,
even in the world of matter, in which science specializes. There are still many
things that science cannot explain, or were once taken to be understood but which
now are no longer on sure ground. One example is the "quark." The quark
is taken to be the most basic constituent of matter, but whether it really is
or not is still open to question. At present it is believed to be so, but the
possibility that there is a more fundamental particle cannot be dismissed. In
fact, the very existence of the quark has not been conclusively proven. The same
applies with quanta, fundamental units of energy. Once again, these are not irrefutably
known to exist, they are only understood or believed to exist.
We are still
not sure that matter and energy are like two faces of the same thing. If that's
the case, then how can they be interchanged? Even light, which scientists have
been studying for so long, has still not been clearly defined. The fundamental
nature of light is still considered to be one of the deeper mysteries of science.
Light is an energy force that is at once a wave and a particle. How can this be
so? And how can it be a fixed velocity when, according to the Theory of Relativity,
even time can be stretched and shrunk? The electromagnetic field is another mystery,
another form of energy which is not yet clearly defined as a wave or a particle.
Where do cosmic rays come from? We don't know. Even gravitation is still not completely
understood. How does it work? We know that it's a law, and we can use it, but
how does it work? We don't know. And the Theory of Relativity tells us that the
space-time mass can be warped. How is that? It is very difficult for ordinary
people to understand these things.
All in all, science still does not clearly
know how the universe and life came about. The ultimate point of research in science
is the origin of the universe and the birth of life. At the present time, the
Big Bang Theory is in fashion. But how did the Big Bang occur? From where did
the primal atom originate? The questions roll on endlessly.
In short, we can
say that the nature of reality on the fundamental level is still beyond the scope
of scientific research. Some scientists even say that there is no way that science
will ever directly know the fundamental nature of reality.
It might be said
that the fundamental truth will naturally continue to elude us if we confine our
research to the material world. Even the most fundamental truth of the physical
universe cannot be understood by searching on only one side, because in fact all
things in the universe are interconnected. Being interconnected, looking at only
one side will not lead to a final answer. The remaining fragment of the mystery
might exist on the other side of reality, the side that is being ignored.
There
will come a time when science will be forced to take an interest in solving the
riddles of the mind. Many scientists and physicists are in fact beginning to look
at the mind and how it works. Is the mind merely a phenomenon which arises within
the workings of matter, like the functions of a computer? Can a computer have
a mind? Numerous books have been written on this subject.[7]
Some people say
that, on one level, even the Theory of Relativity is simply a philosophical concept.
Space and time depend on consciousness. Mundane perceptions of form and size are
not merely the workings of the sense organs, but are also a product of interpretation.
Eye sees form, but it doesn't know size or shape. The apprehension of size and
shape are functions of the mind. Thus, awareness of the material world is not
limited to the five senses, but includes mental factors.
It is the mind which
knows science, but science has yet to discover the nature of the mind, which it
must do if science is to reveal the ultimate truth. Doubt will not be dispelled
until science takes an interest in the field of mind. The problem of whether mind
and matter are one and the same or separate things will come to the fore. This
problem has existed since the time of the Buddha, and is related in the abyakata
pañha (questions the Buddha wouldn't answer).
Nowadays, leaders in
the field of science seem to be divided into four main approaches to the nature
of reality.
The first approach is that of the orthodox or conservative scientists.
They stand by their conviction that science can eventually answer all questions,
and that only through science can reality be understood.
The second approach
is that of a group of "new" scientists, who concede that science is
not able to explain the reality of the mind. They feel that science doesn't need
to become involved and are willing to leave research into the mind to other fields,
such as religion.
The third approach is a that of a group of new physicists
who believe that the Eastern religions can help to explain the nature of reality.
They believe that the way for future of scientific research is pointed out in
Eastern religions. The most well-known of these is Fritjof Capra, author of The
Tao of Physics and The Turning Point.
The fourth approach is that of another
group of new physicists, who maintain that the material world is one level of
reality contained within the realm of the mind. This is the model I mentioned
earlier, of the large ring with the smaller ring inside it.
Ethics: a truth
awaiting verification
Ethics is a very broad subject, one which is normally
considered a religious matter, but here we will consider it in relation to science.
Some people go so far as to say that good and evil are merely social conventions,
almost a matter of personal preference. Such an idea seems to contain some measure
of truth, when it is considered how in some societies certain actions are deemed
good, but in other societies those very same actions are deemed evil.
However,
the perception of good and evil as merely social conventions arises from confusion
of the factors involved. It stems from:
1. A failure to differentiate between
ethical principles and conventions. (A failure to differentiate between naturally
good behavior (cariyadhamma) and that which a society or culture agrees on as
good or appropriate behavior (paññattidhamma).) And more profoundly
...
2. A failure to see the relationship that connects ethical principles
with reality. (A failure to see the relationship between good behavior and reality;
namely that actions are good and appropriate when they are in harmony with the
way things are.)
This gives us three levels to be considered: (a) reality,
(b) ethics, and (c) convention. The differences and the relationship between these
three levels must be clearly understood. The conditions involved in the stream,
ranging from the qualities of good and evil, which are true conditions in reality,
to good and evil actions and speech, which are ethics, and from there to the laws
and conventions of society, are always interconnected.
This threefold system
of reality, ethics and regulations is very similar to the scientific system. The
basis of science, pure science, is comparable to reality. Resting on this base
we have the applied sciences and technology. If pure science is faulty, then the
applied sciences and technology will suffer. From the applied sciences and technology
we reach the third level, which is the forms technology takes, which are many
and varied. One of the reasons for this is that technology seeks to work with
the laws of nature in the most efficient way. The forms of technology will vary
in efficiency because the extent to which they are consistent with the laws of
nature varies. Those forms of technology which are most harmonious with the laws
of nature, and through which those laws function most fluently, will be the most
efficient, and vice versa.
Reality can be compared to pure science.
Ethics
can be compared to applied science and technology.
Regulations or conventions
can be compared to the forms that technology takes.
Rules and regulations
are determined to organize societies. This is convention, which can be established
according to preference. For example, in Thailand the regulation is that cars
drive on the left side of the road, while in America cars drive on the right side.
The two countries have determined different regulations. Now, which is good and
which is evil? Can Thailand say that the Americans are bad because they drive
on the right side of the road, or can America say the opposite? Of course not.
These regulations are the standard for each country, and each country is free
to make its own standards. This is convention.
However, convention is not
simply a matter of preference, it is based on natural factors. Even in very simple
matters, such as deciding which side of the road cars must drive, there is an
objective in mind, which is order and harmony on the road and well-being for society.
This is what both countries want, and this is a concern of ethics. American society
wants this quality, and so does Thai society. Even though their conventions differ,
the ethical quality desired by both societies is the same. In this instance we
can see that although there is a difference in the regulations made, ethically
speaking there is consistency.
Now the problem arises, which regulation gives
better results? This is the crucial point. It may be questioned which is the more
conducive to order and harmony between the regulations of keeping to the right
in America and keeping to the left in Thailand, and there may be some differences
of opinion, but this does not mean that societies determine these regulations
merely out of preference.
This is the relationship between ethics and convention,
or regulations. Regulations are made to provide an ethical result. In Buddhist
monastic terms, the monks put it very simply by saying "Vinaya is for developing
sila": Vinaya refers to the rules and regulations of society, but the objective
of these is sila, which is good and skillful behavior.
There is an exception
in cases where regulations have indeed been made out of partiality, for the benefit
of a privileged few. For example, there are times when it seems that certain laws
have been made to serve the interests of a select group. In this case we say that
corruption has arisen within the regulating process, which will in turn cause
a degeneration of moral behavior. When the root of the legal structure is rotten,
it will be very unlikely to produce a good result.
Because conventions have
this common objective of ethical well-being, but their forms differ, we must learn
how to distinguish clearly between ethics and conventions. Many of these differences
are observable in the customs and traditions of different societies -- family
customs, for example. In one society, a woman is allowed so many husbands, a man
is allowed so many wives, while in other societies, the customs differ. Nevertheless,
overall, the objective is order and harmony within the family, which is an ethical
quality.
However, in the determining of regulations for society, administrators
have varying levels of intelligence and wisdom, and their intentions are sometimes
honest, sometimes not. Societies have different environments, different histories.
With so many variables, the ethical result also varies, being more or less efficacious
as the case may be. From time to time these regulations must be reevaluated. Conventions
are thus tied to specific situations and considerations of time and place, while
ethical objectives are universal.
Therefore, by looking at the situation in
the right manner, even though there may be some discrepancies in the form regulations
take, we can see that they are in fact the results of humanity's efforts to create
a harmonious society. That is, conventions are not the end result, but rather
the means devised to attain an ethical standard, more or less effective, depending
on the intelligence and honesty of the people determining them.
Bearing this
in mind, we can avoid the mistaken belief that good and evil are merely social
conventions, or are determined by preference. We must look on regulations as our
human attempts to find well-being. No matter how useful or ineffective regulations
may be, our objective remains an ethical one.
The success of regulations is
very much tied to the presence of a moral standard within the people who are determining
them, and whether or not they have made their decisions intelligently.
Ethical
principles must be based on ultimate reality or truth. That is, moral principles
must be in conformity with the process of cause and effect, or causes and conditions.
In the field of convention, whenever a regulation brings about an ethically satisfactory
result, it has been successful. For example, if we establish that cars must run
on the left or right side of the road, and this regulation is conducive to order
and harmony, then we say that it has fulfilled its purpose.
Reality (saccadhamma),
ethics (cariyadhamma) and convention (paññattidhamma) are abstract
qualities. Because ethical qualities are tied to reality, it follows that they
are factors within the whole stream of causes and conditions. Failing to understand
or see the relationship and connection between reality, ethics and convention,
we will not be able to enter into a thorough consideration of values, which are
mental properties, and see their proper place within the laws of nature and the
process of causes and conditions.
"What is" versus "what should
be"
Buddhism learns the laws of nature, and then applies them to an ethical
perspective. When people practice in accordance with ethics, they receive the
results in accordance with the natural law of cause and effect, and attain well-being,
which is their objective. This gives us three stages: (1) knowing or realizing
the truth; (2) practicing according to an ethical standard; (3) attaining a good
result.
Science learns the truths of nature, but only on the material side,
and then uses the knowledge gained for technology, with the objective of a life
of abundance.
One path leads to a healthy life, while the other leads to abundance;
one way deals with the nature of man, the other deals with the nature of material
things. Science does not connect the truth to ethics, but instead, because it
deals only with the material world, connects it to technology.
It is generally
understood that science concerns itself exclusively with the question "What
is," shrugging off any concern with "What should be?" as a concern
of values or ethics, which lie beyond its scope. Science does not see that ethics
is based on reality because it fails to see the connection between "What
is?" and "What should be?"
Science applies itself to problems
on the material plane, but on ethical questions it is silent. Suppose we saw a
huge pit full of fire, with a temperature of thousands of degrees. We tell someone,
"The human body is only able to withstand a certain temperature. If a human
body were to enter into that fire it would be burnt to a crisp." This is
a truth. Now suppose we further say, "If you don't want to be burnt to a
crisp, don't go into that pit." In this case, the level of science tells
us that the hole is of such and such a temperature, and that the human body cannot
withstand such a temperature. Ethics is the code of practice which says, "If
you don't want to be burnt to a crisp, don't go into that fire."
In the
same way that technology must be based on the truths of pure science, ethics must
be based on reality. And just as any technology which is not founded on scientific
truth will be unworkable, so too will any ethic not founded on natural truth be
a false ethic. The subject of ethics covers both "What should be?" and
"What is?" in that it deals with the truth of human nature, which is
that aspect of natural truth overlooked by science. For that reason, a true understanding
of reality, which includes an understanding of human nature, is impossible without
a clear understanding of proper ethics. The question is, what kind of reality,
and how much of it, and in what degree, is sufficient to bring about an understanding
of ethics?
True religion is the foundation of science
Science does not
have any advice on how human beings are to live or behave. However, the origin
and inspiration for the birth and growth of science was a desire to know the truth
and a conviction in the laws of nature, which are mental qualities. Even the secondary
values which were later incorporated into this aspiration, such as the aspiration
to subjugate nature, are all mental processes. Not only the aspiration for knowledge,
but even the great discoveries of science have been products of the mind. Some
scientists possessed a quality we could call "intuition." They foresaw
the truths that they discovered in their mind's eye before actually verifying
them in the field.
Without this quality of intuition and foresight, science
might have become just another baseless branch of knowledge, or largely a matter
of guesswork, lacking direction or goal. Intuition has played a vital role in
the history of science. For many eminent scientists it was involved in making
their most important discoveries. Some train of thought, never before thought
of, would arise in the scientist's mind, initiating systematic reasoning, formulation
of a hypothesis and experimentation, and eventually a new theory. All the advances
of science made so far have arisen through faith, conviction, aspiration to know,
intuition and other mental qualities, and in the minds of the most eminent scientists,
those who made the most far-reaching breakthroughs, these qualities could be found
in abundance. Even observation begins with a thought, which establishes a path
of investigation, and constrains observation to the relevant framework. For example,
Newton saw the apple fall and understood the Law of Gravity. According to the
story, he saw the apple fall and immediately had a realization, but in fact Newton
had been pondering the nature of motion for months at that time. It was a mental
process in his mind, which culminated in a realization when he saw the apple fall.
This kind of thing may happen to anybody. We may be thinking of some particular
problem to no avail for a long time, and then, while we happen to be just sitting
quietly, the answer suddenly flashes into the mind. These answers don't just arise
randomly or by accident. In fact, the mind has been unctioning on a subtle level.
The realization is the result of a cause and effect process.
Mind, through
faith and motivation, is the origin of science; through intuition and foresight
it is the drive for scientific progress; and through the goals and objectives
which are envisioned and aspired to in the mind, it is the direction for science's
future advancement. The search for fundamental truths is possible because the
mind conceives that such truths do exist.
Having reached this point, I would
like to tell you the name of the eminent scientist who inspired the title of this
talk. He is none other than Albert Einstein. He didn't, however, say the exact
words I have used. What he did say was:
"... in this materialistic age
of ours the serious scientific workers are the only profoundly religious people
..."[8]
Einstein felt that in this age it is hard to find people with
religion. Only the scientists who study science with a pure heart have true religion.
He went on to say,
"... but science can only be created by those who are
thoroughly imbued with the aspiration toward truth and understanding ... those
individuals to whom we owe the great creative achievements of science were all
of them imbued with the truly religious conviction that this universe of ours
is something perfect and susceptible to the rational striving for knowledge ..."[9]
The desire to know the truth, and the faith that behind nature there are laws
which are constant truths throughout the entire universe is what Einstein called
religious feeling, or more specifically, 'cosmic religious feeling'. Then he went
on to say,
"... cosmic religious feeling is the strongest and noblest
motive for scientific research."[10]
And again:
"... Buddhism,
as we have learned especially from the wonderful writings of Schopenhauer, contains
a much stronger element of this ..."[11]
Einstein says that Buddhism
has a high degree of cosmic religious feeling, and this cosmic religious feeling
is the origin or seed of scientific research. So you can decide for yourselves
whether the title I have used for this talk is suitable or not.
I have mentioned
this to show in what manner it can be said that Buddhism is the foundation of
science, but please don't attach too much importance to this idea, because I don't
completely agree with Einstein's view. My disagreement is not with what he said,
but that he said too little. What Einstein called the "cosmic religious feeling"
is only part of what religious feeling is, because religion should always come
back to the human being, to the nature of being human, including how human beings
should behave towards nature, both internally and externally. I cannot see that
Einstein's words clearly include self-knowledge and benefit to the human being.
However that may be, from Einstein's words it is evident that he felt that science
had its roots in the human desire for knowledge, and conviction in the order of
nature.
However, I don't wish to place too much emphasis on whether Buddhism
really is the foundation of science or not. It might be better, in fact, to change
the title of this talk, to something like ... "What would a science which
is based on Buddhism be like?" This may give us some new perspectives to
think about. The statement "Buddhism is the foundation of science" is
just an opinion, and some may say a conceited opinion at that. And that would
get us nowhere. To ask "How should science be in order to be founded on Buddhism?"
would be much more constructive.
In answer, we must first expand the meaning
of the word "religion" or "religious feeling" in order to
correspond to Buddhism:
a. The words "cosmic religious feeling" must
cover both the external natural world and the natural world within the human being,
or both the physical universe and the abstract, or mental.
b. The definition
of science as originating from the aspiration to know the truth must be complemented
by a desire to attain the highest good, which Buddhism calls "freedom from
human imperfection."
In point (a) we are extending the scope of that
which is to be realized. In point (b) we are reiterating those values which are
in conformity with the highest good, ensuring that the aspiration for truth is
pure and clear, and minimizing the possibility of lesser values corrupting that
aspiration.
With these two points in mind, we can now answer, "The science
which accords with Buddhism is that which aspires to understand natural truth,
in conjunction with the development of the human being and the attainment of the
highest good," or, "the science which is founded on Buddhism arises
from an aspiration for knowledge of nature, together with a desire to attain the
highest good, which is the foundation for constructive human development."
This kind of definition may seem to be bordering onto applied science, but
it isn't really. From one perspective, the natural sciences of the last age were
influenced by selfish motives. This is why these alternative incentives are so
important, to replace the desire to conquer nature and produce an abundance of
material wealth with an aspiration for freedom from suffering.
To rephrase
our definition, we could say "The science which attains a true and comprehensive
knowledge of reality will be the integration of the physical sciences, the social
sciences and the humanities. All sciences will be connected and as one."
Or to put it another way, "Once science extends the limits of its fundamental
definition and improves its techniques for research and study, the truths of the
social sciences and humanities will be attainable through the study of science."
This statement is not said in jest or carelessness. In the present day, the
advances of the sciences and human society within the global environment have
necessitated some cohesiveness in the search for knowledge. It could be said that
the time is ripe. If we don't deal with the situation in the proper way, that
ripeness may give way to putrefaction, like an overripe fruit. The question is,
will science take on the responsibility of leading mankind to this unification
of learning?
Knowledge of truth should be divided into two categories:
a.
That which is necessary or useful, and is possible for a human being to attain
within the limits of one lifetime.
b. That which is not necessary or useful.
Phenomena which have not yet been verified can be looked into, but a good life
should not be dependent on having to wait for their verification.
The human
life-span is limited and soon comes to an end. Quality of life, or the highest
good, are things which are needed within this life-span. Scientists tend to say,
"Wait until I've verified this first, and then you will know what to do."
This attitude should be changed. We need to distinguish between the different
kinds of knowledge mentioned above. If science is to be a truly comprehensive
body of learning, it must relate correctly to these two kinds of truth.
On
the other hand, if science is to continue its present course, it might provide
a more integrated response by cooperating with Buddhism for answers to those questions
which demand immediate answers, so that the attainment of the highest good in
this very life is a possibility. In the meantime, science can seek answers to
those questions which, even if not answered, do not affect our ability to live
in peace and well-being.
Effect of values on scientific research
The reason
we need to clarify intermediate aims is that if pure science does not determine
its own set of values, it will not be able to escape the influence of other interests.
Outside parties with personal interests have determined science's values in the
past, and these values have led to the destruction of the environment. Science
has become a "lackey of industry." A lackey of industry cannot be a
servant of mankind. These days some say that industry is destroying mankind, a
point that deserves consideration. If scientists do not establish their own values,
someone else will.
Human beings possess intention. It is one of mankind's
unique qualities, one which affects everything we do. This means the search for
knowledge cannot be totally without intention and values. Human beings, as the
highest kind of being, are capable of realizing truth and the highest good. We
should aspire to realize this potential.
As long as science lacks clarity
on its position in relation to values, and yet exists within a world of values,
it will have its direction determined by other interests. This may cause some
scientists to feel cheated and frustrated in their pursuit of knowledge. As long
as industry is society's "star player," it will continue to exert a
powerful influence over science, through its influence on government policies
and financial institutions. For example, if a scientific institute submits a proposal
for research in a particular field, but such research is not in the interests
of industry, the industrial sector has the power to withhold support, thus pressuring
the government to do likewise.
When this happens the scientists may get discouraged
and end up like Sir Isaac Newton. Newton was heavily influenced by values in his
research. He discovered the Law of Gravity when he was only 24 years old. However,
some of his ideas clashed with the establishment of the time, and he was ridiculed.
Newton was a very moody fellow, and easily hurt. He didn't like to associate with
other people. As soon as people started to criticize his work, he got upset and
gave it up. He wouldn't go anywhere near science for twenty-two years.
Now
Edmond Halley, the scientist who predicted the cycles of the comet named after
him, saw the value of Newton's work, and so he went to Newton and encouraged him
to start work again. Newton, taking heart, began work on the momentous book Philosophiae
Naturalis Principia Mathematica. But then, when he had finished only two thirds
of the manuscript, another scientist, who, during the twenty-two years that Newton
had refused to put his ideas to print, had come to an understanding of the Law
of Gravity and calculus, claimed that he had discovered all of this before Newton.
When Newton heard this he went off into another sulk. He wasn't going to write
the book after all. He had only written two thirds of it when he gave up once
more. Halley had to go to him again and give him another pep talk to coax him
into continuing his work, after which he finally completed it.
This is a good
example of how values can completely overwhelm a scientist, with repercussions
for the whole scientific world. If Newton, who was a genius, had had a strong
heart, not giving in to feelings of hurt and indignation, he may have been able
to give the scientific world so much more than he did, instead of discarding his
research for over twenty years.
In the present time, with the industrial and
financial sectors all-powerful, scientists must adhere to their own ethics to
prevent external values from overwhelming them. In this age of environmental ruin,
some of the truths being discovered by scientific research may not be in the interests
of some of the industrial and financial sectors. We hear statements in the USA
from research teams that the greenhouse scare is unfounded, that the world isn't
going to heat up. Then, at a later time, another group of researchers tells us
that the first group was influenced by financial considerations from industrial
sectors. The situation is very complicated. Personal advantage begins to play
a role in scientific research, and subjects it even more to the influence of values.
At the very least, ethical principles encourage scientists to have a pure
aspiration for knowledge. This is the most powerful force the progress of science
can have. At the present moment we are surrounded by a world which is teeming
with values, mostly negative. In the past, science and industry worked together,
like husband and wife. Industry spurred science on, and science helped industry
to grow. But in the coming age, because some of the interests of industry are
becoming a problem in the natural environment, and because science is being questioned
about this, scientific research may come up with facts that are embarrassing to
the industrial sector, science and industry may have to part their ways, or at
least experience some tension in their relationship. Science may be forced to
find a new friend, one who will help and encourage it to find knowledge that is
useful to the human race.
As science approaches the frontiers of the mind,
the question arises, "Will science recognize the sixth sense and the data
which are experienced there? Or will scientists continue to try to verify moods
and thoughts by looking at the chemicals secreted by the brain, or measuring the
brain's waves on a machine, and thereby looking at mere shadows of the truth?"
This would be like trying to study a stone from the "plops" it makes
in the water, or from the ripples that arise on the water's surface. One might
measure the waves that correspond to stones of different sizes, and then turn
that into a mathematical equation, or estimate the mass of the stone that's fallen
into the water by measuring the ripples extending from it. Has this been the approach
of science's study of nature? The fact is, they never actually pick up a stone!
If this is the case, science may have to take a look at some of the ways of observing
and experimenting used in other traditions, such as Buddhism, which maintains
that observation and experiment from direct experience in the mind the best way
to observe the laws of nature.
Footnotes
4.
Sir Arthur Stanley Eddington, The Nature of the Physical World (new York: Macmillan,
1929), p. 282. [Return to text]
5. Max Planck, "The Mystery of Our Being,"
in Quantum Questions, ed. Ken Wilbur (Boston: New Science Library, 1984), p. 153.
[Return to text]
6. Sir James Jeans, The Mysterious Universe (Cambridge University
Press, 1931), p.111. [Return to text]
7. Roger Penrose, The Emperor's New Mind
(New York, Penguin Books USA, 1991). [Back to text]
8. Albert Einstein, Ideas
and Opinions (New York: Bonanza Books, 1954), p.40. [Back to text]
9. Ibid.,
pp. 45, 52. [Back to text]
10. Ibid., p.39. [Back to text]
11. Ibid.,
p.38. [Return to text]
-oOo-
[Taken from Bhikkhu P. A. Payutto., Toward
Sustainable Science, A Buddhist Look at Trends in Scientific Development. (Bangkok:
Buddhadhamma Foundation, 1993), pp. 103-128].