Buddhism, the only real science
by Ajahn Brahmavamso, Daily News (Sri Lanka), February 23, 2005
Ajahn Brahmavamso is the Abbot of the Bodhinyana Buddhist Monastery in Western Australia, and Spiritual Director of the Buddhist Society of Western Australia. He trained as a monk in the Thai Therevadan tradition under the guidance of the renowned meditation master Ajahn Chah.
I used to be a scientist. I did Theoretical Physics at Cambridge University, hanging out in the same building as the later-to-be-famous Professor Stephen Hawking. I became disillusioned with such science when, as an insider, I saw how dogmatic some scientists could be.
A dogma, according to the dictionary, is an arrogant declaration of an opinion. This was a fitting description of the science that I saw in the labs of Cambridge. Science had lost its sense of humility. Egotistical opinion prevailed over the impartial search for Truth. My favorite aphorism from that time was: "The eminence of a great scientist, is measured by the length of time that they OBSTRUCT PROGRESS in their field"!
Real science
To understand real science, one can go back to one of its founding fathers, the English philosopher Francis Bacon (1561 - 1628). He established the framework on which science was to progress, namely "the greater force of the negative instance".
This meant that, having proposed a theory to explain some natural phenomenon, then one should try one's best to disprove it! One should test the theory with challenging experiments. One must put it on trial with rigorous argument. When a flaw appears in the theory, only then does science advance.
A new discovery has been made enabling the theory to be adjusted and refined. This fundamental and original methodology of science understood that it is impossible to prove anything with absolute certainty. One can only disprove with absolute certainty.
For example, how can one prove the basic law of gravity that "what goes up comes down, eventually"? One may throw objects up one million times and see them fall one million times. But that still does not prove "what goes up comes down".
For NASA might then 'throw' a Saturn rocket up into space to explore Mars, and that never comes down to earth again. One negative instance is enough to disprove the theory with absolute certainty.
Rebirth
Some misguided scientists maintain the theory that there is no rebirth that this stream of consciousness is incapable of returning to a successive human existence. All one needs to disprove this theory, according to science, is to find one instance of rebirth, just one! Professor Ian Stevenson, as some of you would know, has already demonstrated many instances of rebirth. The theory of no rebirth has been disproved. Rebirth is now a scientific fact!
Modern science gives a low priority to any efforts to disprove its pet theories. There is too much vested interest in power, prestige and research grants. A courageous commitment to truth takes too many scientists out of their comfort zone. Scientists are, for the most part, brainwashed by their education and their in-group conferences to see the world in a very narrow, microscopic, way. The very worst scientists are those who behave like eccentric evangelists, claiming that they alone have the whole truth, and then demanding the right to impose their views on everyone else.
Ritual of science
Ordinary people know so little about science that they can hardly even understand the jargon. Yet, if they read in a newspaper or magazine "a scientist says that?", then they automatically take it to be true.
Compare this to our reaction when we read in the same journal "a politician says that?"! Why do scientists have such unchallenged credibility? Perhaps it is because the language and ritual of science has become so far removed from the common people that scientists have become today's revered and mystical priesthood. Dressed in their ceremonial white lab coats, chanting incomprehensible mumbo jumbo about multi-dimensional fractal parallel universes, and performing magical rituals that transubstantiate metal and plastic into TV's and computers, these modern day alchemists are so awesome we'll believe anything they say.
Some know better. Much of what I learnt 30 years ago has now been proved wrong. There are, fortunately, many scientists with integrity and humility who affirm that science is, at best, a work still in progress.
They know that science can only suggest a truth, but can never claim a truth. I was once told by a Buddhist G.P. that, on his first day at a medical school in Sydney, the famous Professor, head of the Medical School, began his welcoming address by stating "Half of what we are going to teach you in the next few years is wrong. Our problem is that we do not know which half it is!" Those were the words of a real scientist.
Some evangelical scientists would do well to reflect on the (amended) old saying "Scientists rush in where angels fear to tread" and stop pontificating about the nature of the mind, happiness and even Nirvana.
Neurologists are especially prone to such neuroses (Neurosis: an undue adherence to unrealistic ideas of things). They are claiming that the mind, awareness and will, is now adequately explained by activity in the brain.
This theory was disproved over 20 years ago by Prof. Lorber's discovery of the student at Sheffield University with an IQ of 126, a First Class degree in mathematics, but with virtually no brain* (Science, Vol. 210, 12 Dec 1980)! More recently, it was disproved by Prof. Pim Van Lommel, who demonstrated the existence of consciousness activity after clinical death, i.e. when all brain activity has ceased (Lancet, Vol. 358, 15 December 2001, p 2039).
Although there may be correlation between a measurable activity in part of the brain and a mental impression, such co-occurrence doesn't always imply that one is the cause of the other.
For instance, some years ago, research showed a clear correlation between cigarette smoking and the non-occurrence of Alzheimer's disease. It was not that smoking cigarettes somehow caused immunity from Alzheimer's, as much as the tobacco companies might have wished; it was only that many smokers did not live long enough to get Alzheimer's disease! Thus a co-incidence of two phenomena, even when repeated, does not mean that one phenomenon is the cause of the other. To claim that activity in the brain causes awareness, or mind, is plainly unscientific.
More scientific
Buddhism is more scientific than modern science. Like science, Buddhism is based on verifiable cause-and-effect relationships. But unlike science, Buddhism challenges with thoroughness every belief. The famous Kalama Sutta of Buddhism states that one cannot believe fully in "what one is taught, tradition, hearsay, scripture, logic, inference, appearance, agreement with established opinion, the seeming competence of a teacher, or even in one's own teacher". How many scientists are as rigorous in their thinking as this?
Buddhism challenges everything, including logic.
It is worth noting that Quantum Theory appeared quite illogical, even to such great scientists as Einstein, when it was first proposed. It is yet to be disproved. Logic is only as reliable as the assumptions on which it is based. Buddhism trusts only clear and objective experience.
Clear experience occurs when one's measuring instruments, one's senses, are bright and undisturbed. In Buddhism, this happens when the hindrances of sloth-and-torpor and restlessness-and-remorse are both overcome.
Objective experience is that which is free from all bias. In Buddhism, the three types of bias are desire, ill-will and skeptical doubt. Desire makes one see only what one wants to see, it bends the truth to fit one's preferences.
Ill-will makes one blind to whatever is disturbing or disconcerting to one's views and it distorts the truth by denial. Skeptical doubt stubbornly refuses to accept those truths, like rebirth, that are plainly valid but which fall outside of one's comforting worldview. In summary, clear and objective experience only happens when the Buddhist 'Five Hindrances' have been overcome. Only then can one trust the data arriving through one's senses.
Clear and objective
Because scientists are not free of these five hindrances, they are rarely clear and objective. It is common, for example, for scientists to ignore annoying data, which do not fit their cherished theories, or else confine such evidence to oblivion by filing it away as an 'anomaly'.
Even most Buddhists aren't clear and objective. One has to have recent experience of Jhana to effectively put aside these five hindrances (according to the Nalakapana Sutta, Majjhima No. 68). So only accomplished meditators can claim to be real scientists, that is, clear and objective.
Science claims to rely not only on clear and objective observation, but also on measurement. But what is measurement in science? To measure something, according to the pure science of Quantum Theory, is to collapse the Schr"dinger Wave Equation through an act of observation.
Moreover, the "un-collapsed" form of the Schr"dinger Wave Equation, that is before any measurement is made, is, perhaps, science's most perfect description of the world.
That description is weird! Reality, according to pure science, does not consist of well ordered matter with precise massed, energies and positions in space, all just waiting to be measured. Reality is the broadest of smudges of all possibilities, only some being more probable than others.
Even basic 'measurable' qualities as 'alive' or 'dead' have been demonstrated by science to be invalid sometimes. In the notorious 'Schr"dinger's Cat' thought experiment, Prof. Schr"dinger's cat was ingeniously placed in a real situation where it was neither dead nor alive, where such measurements became meaningless. Reality, according to Quantum Theory, is beyond measurements.
Measuring disturbs reality; it never describes it perfectly. It was Heisenberg's famous 'Uncertainty Principle' that showed the inevitable error between the real Quantum world and the measured world of pseudo-science.
Anyway, how can anyone measure the measurer, the mind? At a recent seminar on Science and Religion, at which I was a speaker, a Catholic in the audience bravely announced that whenever she looks through a telescope at the stars, she feels uncomfortable because her religion is threatened.
I commented that whenever a scientist looks the other way round through a telescope, to observe the one who is watching, then they feel uncomfortable because their science is threatened by what is doing the seeing! So what is doing the seeing, what is this mind that eludes modern science? A Grade-One teacher once asked her class "What is the biggest thing in the world?" One little girl answered "My daddy". A little boy said "An elephant", since he'd recently been to the zoo. Another girl suggested "A mountain".
The six-year-old daughter of a close friend of mine replied, "My eye is the biggest thing in the world"! The class stopped.
Even the teacher didn't understand her answer. So the little philosopher explained "Well, my eye can see her daddy, an elephant, and a mountain too. It can also see so much else. If all of that can fit into my eye, then my eye must be the biggest thing in the world"! Brilliant.
Science's mistake
However, she was not quite right. The mind can see everything that one's eye can see, and it can also imagine so much more. It can also hear, smell, taste and touch, as well as think. In fact, everything that can be known can fit into the mind.
Therefore, the mind must be the biggest thing in the world. Science's mistake is obvious now. The mind is not in the brain, nor in the body. The brain, the body and the rest of the world, are in the mind!
Mind is the sixth sense in Buddhism, it is that which encompasses the five senses of sight, hearing, smell, taste and touch, and transcends them with its own domain. It corresponds loosely to Aristotle's "common sense" that is distinct from the five senses.
Indeed, ancient Greek philosophy, from where science is said to have its origins, taught six senses just like Buddhism. Somewhere along the historical journey of European thinking, they lost their mind! Or, as Aristotle would put it, they somehow discarded their "common sense"! And thus we got science.
We got materialism without any heart. One can accurately say that Buddhism is science that has kept its heart, and which hasn't lost its mind!
source:
http://www.dailynews.lk/2005/02/23/fea07.html
Comments
That's SO good. I don't think I will ever forget it.
Really amazing. And incredibly clear.
Thank you!
Brigid
Venerable Ajahn Brahm (a British-Australian) is extremely well-versed in Buddhism fundamentals and able to articulate it very well.
About two weeks ago, attended a Public Dialog by Ajahn Brahm about "Evolution and Intelligent Design" and "Karma, what happens after death". He gave a very impressive talk with interesting QnA.
Website : www.bswa.org
Later, Einstein requires aether whereas in SRT he didn't (SRT is about dead as a theory).
Buddhism and Science:
Probing the Boundaries of Faith and Reason
Dr. Martin J. Verhoeven
Religion East and West, Issue 1, June 2001, pp. 77-97
Abstract
Western interest in Eastern religions, especially Buddhism, historically coincided with the rise of modern science and the corresponding perceived decline of religious orthodoxy in the West. Put simply: Modern science initiated a deep spiritual crisis that led to an unfortunate split between faith and reason—a split yet to be reconciled. Buddhism was seen as an "alternative altar," a bridge that could reunite the estranged worlds of matter and spirit. Thus, to a large extent Buddhism's flowering in the West during the last century came about to satisfy post-Darwinian needs to have religious beliefs grounded in new scientific truth.
As science still constitutes something of a "religion" in the West, the near-absolute arbiter of truth, considerable cachet still attends the linking of Buddhism to science. Such comparison and assimilation is inevitable and in some ways, healthy. At the same time, we need to examine more closely to what extent the scientific paradigm actually conveys the meaning of Dharma. Perhaps the resonance between Buddhism and Western science is not as significant as we think. Ironically, adapting new and unfamiliar Buddhist conceptions to more ingrained Western thought-ways, like science, renders Buddhism more popular and less exotic; it also threatens to dilute its impact and distort its content.
Historians since the end of World War II, have suggested that the encounter between East and West represents the most significant event of the modern era. Bertrand Russell pointed to this shift at the end of World War II when he wrote, “If we are to feel at home in the world, we will have to admit Asia to equality in our thoughts, not only politically, but culturally. What changes this will bring, I do not know. But I am convinced they will be profound and of the greatest importance.”
More recently, the historian Arthur Versluis, in a new book, American Transcendentalism and Asian Religions (1993), pieced together five or six major historical views on this subject, and presented this by way of conclusion:
However much people today realize it, the encounter of Oriental and Occidental religious and philosophical traditions, of Buddhist and Christian and Hindu and Islamic perspectives, must be regarded as one of the most extraordinary meetings of our age. . . . Arnold Toynbee once wrote that of all the historical changes in the West, the most important—and the one whose effects have been least understood—is the meeting of Buddhism in the Occident. . . . And when and if our era is considered in light of larger societal patterns and movements, there can be no doubt that the meeting of East and West, the mingling of the most ancient traditions in the modern world, will form a much larger part of history than we today with our political-economic emphases, may think.
These are not isolated opinions. Many writers, scholars, intellectuals, scientists, and theologians have proclaimed the importance of the meeting of East and West. Occidental interest in the Orient predates the modern era. There is evidence of significant contact between East and West well before the Christian era. Even in the New World, curiosity and interchange existed right from the beginning, as early as the 1700s. One can find allusions to Asian religions in Cotton Mather, Benjamin Franklin, Walt Whitman, and of course, more developed expressions in Henry David Thoreau, and Ralph Waldo Emerson.
By the mid-twentieth century this growing fascination with Asian thought led Arnold Toynbee to envision a new world civilization emerging from a convergence of East and West. He anticipated that the spiritual philosophies of Asia would touch profoundly on the three basic dimensions of human existence: Our relationships with each other (social); with ourselves (psychological); and, with the physical world (natural). What is the shape and significance of this encounter? What does Buddhism contribute to the deeper currents of Western thought; and more specifically, to our struggle to reconcile faith with reason, religion with science?
Science was already the ascendant intellectual sovereign when Buddhism made its first serious entry on the American scene in the latter decades of the 19th century. A World's Parliament of Religions, held in conjunction with the 1893 Colombian Exposition in Chicago, brought to America for the first time a large number of Asian representatives of the Buddhist faith. These missionaries actively and impressively participated in an open forum with Western theologians, scientists, ministers, scholars, educators, and reformers. This unprecedented ecumenical event in the American heartland came at a most opportune time. America was ready and eager for a new source of inspiration, ex orient lux, the 'light of Asia.'
By the 1890s America was caught in the throes of a spiritual crisis affecting Christendom worldwide. Modern scientific discoveries had so undermined a literal interpretation of sacred scripture, that for many educated and thoughtful people, it was no longer certain that God was in his heaven and that all was right with the world. These rapid changes and transformations in almost every aspect of traditional faith, had such irreversible corrosive effects on religious orthodoxy, that they were dubbed, "acids of modernity." They ate away at received convictions, and ushered in an unprecedented erosion of belief. People like my grandparents, brought up with rock-solid belief in the infallible word of God, found their faith shaken to its very foundations. It was as if overnight they suddenly awoke to a new world governed not by theological authority but by scientists. New disclosures from the respected disciplines of geology, biology, and astronomy challenged and shattered Biblical accounts of the origins of the natural world and our place and purpose in it. Sigmund Freud captured the spirit of the age well when he said “the self-love of mankind has been three times wounded by science.” The Copernican Revolution, continued by Galileo, took our little planet out of the center position in the universe. The Earth, held to be the physical and metaphysical center of the Universe, was reduced to a tiny speck revolving around a sun. Then Darwin all but eliminated the divide between animal and man, and with it the "special creation" status enjoyed by humans. Darwin, moreover, diminished God. The impersonal forces of natural selection kept things going; no divine power was necessary. Nor, from what any competent scientist could demonstrate with any factual certainty, was any Divinity even evident—either at the elusive "creation," or in the empirical present. Karl Marx people portrayed people as economic animals grouped into competing classes driven by material self-interest. Finally, Freud himself characterized religious faith as an evasion of truth, a comforting illusion sustained by impulses and desires beyond the reach of the rational intellect. Nietzsche's famous declaration that “God is Dead” may have seemed extreme, but few would have denied that God was ailing. And certainly the childhood version of a personal, all-powerful God that created the world and ruled over it with justice and omniscience was for many a comforting vision lost forever.
One of the lingering side effects of this loss has been the unfortunate disjunction of matter and spirit that afflicts the modern age. It can assume many forms: a split between matter and spirit, a divorce between faith and reason, a dichotomy between facts and values. At a more personal level, it manifests as a mind-body dualism. An unwelcome spiritual and psychological legacy from the late 19th and early 20th centuries, it is still very much with us today, something that haunts our psyches.
Much of today’s near-obsession with therapy in the West, and even the shift toward psychologizing religion (including the “New Age” phenomenon) could be seen as attempts to heal this deep sense of alienation. The pragmatic philosopher, John Dewey, wrote: “The pathological segregation of facts and value, matter and spirit, or the bifurcation of nature, this integration [i. e. the problem of integrating this] poses the deepest problem of modern life.” This problem both inspires and confounds contemporary philosophy and religion. Wholeness eludes us while the split endures; and yet, almost tragically, the very means we have available to heal it insure its continuation. For, all of our philosophies, academic disciplines, therapies, and even religious traditions are informed by and rooted in aspects of this dualism. Perhaps the most visible expression of this pathological segregation is the gap between science and religion.
Thus, when the eminent philosopher and mathematician Alfred North Whitehead scanned the broad outlines of our time, he wrote: “The future course of history would center on this generation’s resolving the issue of the proper relationship between science and religion, so fundamental are the religious symbols through which people give meaning to their lives and so powerful the scientific knowledge through which we shape and control our lives.” And it is in regard to this troubling issue, I think, that Eastern religions, particularly Buddhism, are seen to hold out the promise of achieving some resolution. The idea dates back over a hundred years.
After the 1893 Chicago Parliament of World Religions, one Paul Carus, a Chicago-based editor of the Open Court Press, invited some of the influential Japanese Buddhist delegates to a week-long discussion at the home of Carus's father-in-law, Edward Hegeler. Both deeply felt the spiritual crisis of the times. Both were trying to reform Christianity to bring it in line with current thought; in short, to make religion scientific. It occurred to them that Buddhism was already compatible with science, and could be used to nudge Christianity in the same direction. Toward this end, Carus wanted to support a Buddhist missionary movement to the United States from Asia. His thinking was to create something of a level playing field. Carus had witnessed the most ambitious missionary undertaking in modern history that send thousands of Protestant missionaries abroad to convert the people ‘sitting in darkness.' He wished to conduct a Darwinian experiment of 'survival of the fittest." His goal: to bring Buddhist missionaries to America where they could engage in healthy competition with their Christian counterparts in the East, and thus determine the "fittest" to survive.
With the aid of his wealthy father-in-law who put up money, they sponsored a number of Eastern missionaries to the United States: Anagarika Dharmapala, from what was then Ceylon, now Sri Lanka; Swami Vivekananda, from India representing the Ramakrishna Vedanta movement; and Soyen Shaku, a Japanese Buddhist monk, and Shaku's young disciple D.T. Suzuki. During his stay in the United States in the late 1890s and early 1900s, Suzuki lived in the small town of LaSalle/Peru, Illinois. He was in his twenties then, and for about eleven years he worked closely with Paul Carus translating Buddhist texts into English and putting out inexpensive paperback editions of the Asian classics. Suzuki later became the leading exponent of Zen in the West, when he returned in the 1950s on a Rockefeller grant to lecture extensively at East Coast colleges. He influenced writers and thinkers like Carl Jung, Karen Horney, Erich Fromm, Martin Heidegger, Thomas Merton, Alan Watts, and the "beat Buddhists"—Jack Kerouac, Alan Ginsberg, and Gary Snyder. Suzuki died in 1966 in Tokyo. His influence in the West was profound—making Zen an English word, translating Asian texts into English, stimulating a scholarly interest in the Orient among American intellectuals, and deepening American respect and enthusiasm for Buddhism. The historian Lynn White Jr. praised Suzuki as someone who broke through the "shell of the Occident" and made the West's thinking global. His introduction to the West came about through the hands of Paul Carus.
These early missionaries of Buddhism to the West, including Carus himself, all shared the same modern, reformist outlook. They translated Buddhism into a medium and a message compatible and resonant with the scientific and progressive spirit of the Age. They selectived passages of text to favor that slant, and carefully presented the Buddhist teachings in such a way as to appeal to modern sensibilities—empirical, rational, and liberal. Americans wanted religion to "make sense," to accord with conventional wisdom. Then, as now, our primary mode of making sense of things was positivist—reliable knowledge based on natural phenomena as verified by empirical sciences. So firmly entrenched is the scientific outlook that it has for all practical purposes taken on a near-religious authority. Few, then or now, critically question our faith in science; we presume its validity and give it an almost unquestioned place as the arbiter of truth.
Thus, the early missionaries of Buddhism to America purposely stripped Buddhism of any elements that might appear superstitious, mythological, even mystical. Dharmapala, Suzuki, and Vivekananda clearly ascertained that Americans measured truth in science, and science posed little theological threat to a Buddhist and Hindu worldview. After all, Buddhism had unique advantages for someone who rejected their faith (Christian) due to its authoritarianism and unscientific outlook:
1) Buddhism did not assert or depend upon the existence of a God
2) Buddhism was a superstition-free moral ideal; it conformed to the scientific view of an ordered universe ruled by law (Dharma)—a system both moral and physical where everything seemed to work itself out inexorably over vast periods of time without divine intervention (karma)
3) Buddhism posited no belief in gods who could alter the workings of this natural law
4) Buddhism was a religion of self-help with all depending on the individual working out his/her own salvation
5) "Original" Buddhism was seen as the "Protestantism of Asia," and Buddha as another Luther who swept away the superstitions and rituals of an older, corrupted form and took religion back to its pure and simple origins
6) Buddhism presented an attractive personal founder who led life of great self-sacrifice; parallels were drawn between Jesus and Buddha as the inspiration of a personal figure exerted strong appeal to seekers who had given up on theology and metaphysics.
Thus, Buddhism was packaged and presented in its most favorable light viz a viz the current spiritual crisis in the West; and, not surprisingly, Buddhism seemed immensely reasonable and appealing to Americans. Darwinism might be undermining Biblical Christianity, but it only enhanced Buddhism's standing.
In fact, Darwin's theory of evolution, which struck the most severe blow to the Judaeo-Christian edifice, was taken up as the leading banner for Buddhist propagation. With Darwin the concept of evolution became enshrined in the popular mind. Everything was evolutionary—species, races, nations, economies, religions, the universe—from the micro to the macro. Social Darwinists even saw evolution operating behind the vicissitudes of free-market capitalism. As the constant interaction of stimulus and response in nature, evolution seemed to match nicely with the notion of karma—the cyclical unfolding of events governed by the law of cause and effect. So Anagarika Dharmapala could announce in Chicago to his largely Judaeo-Christian audience that "the theory of evolution was one of the ancient teachings of the Buddha." As it was in nature (at least in the new natural world of Darwin), so it was in the Buddhist universe.
Most people drawn to Eastern religions did not examine very closely the supposed identity of Darwin's evolution and the Buddhist concept of karma. They were content, even predisposed, to imagine them the same. Buddhists ardent to convert Americans to Buddhism, as well as Christians eager to find some correspondence between modern science and their beleaguered faith, were happy to say, “Yes, the similarities are close enough; look, how the ancient Eastern religions anticipated our modern science!" Vivekananda, the charismatic and eloquent Ramakrishna delegate from India, met only hurrahs of affirmation when he proclaimed to a Chicago audience that the latest discoveries of science seemed "like the echoes from the high spiritual flights of Vedantic philosophy."
This facile view that Buddhism and science were cut of the same cloth accorded nicely with the longing to reconnect the sacred and the secular. It held out hope that religion could once again assume its rightful place alongside (if no longer in the lead of) the emerging disciplines of biology, geology, and physics. It also fit neatly with the presumed "unity of truth" that Victorians held to so dearly—there could only be one truth, not two. The very nature of reality demanded that the truths of science and religion be one and the same. Carus called his new system of thought "the Religion of Science," and Max Muller called his new theology "the Science of Religion."
This trend linking Buddhism to science continued, even accelerated, into the 20th century. Einstein's work and further developments in the new cutting-edge physics seemed to provide even further evidence that science and Buddhism were merely different rivers leading to the same sea. Where the old theologies crumbled under the juggernaut of science, Buddhism seemed to hold its own, even thrive. The early (and even contemporary) exponents of Buddhism pushed this idea. It remains an area of great promise and interest; but it is not one without difficulties.
One of the first to question this marriage, interestingly, was also one of its earliest proponents, D.T. Suzuki. When Suzuki came to the United States to collaborate with Paul Carus, both were outspoken advocates of the link between Buddhism and science. Suzuki’s early writings make virtually no distinction between Buddhism and science. For Suzuki, Buddhism was eminently modern and progressive, compatible with the latest discoveries in Western psychology and philosophy. It was, in a word, scientifically sound.
By the time Suzuki returned to the United States in the 1950s, however, he had experienced a change of heart. He then wrote that his initial thinking—that religion must be based on scientific grounds and that Christianity was based on too much mythology—was a little ill-founded. An older, perhaps wiser Suzuki, came to doubt the sufficiency of a religion based on science, and even saw the need for religion to critique science. In 1959, Suzuki wrote that his early modernist agreement with Hegeler and Carus that "religion must stand on scientific grounds...Christianity was based too much on mythology," was ill-founded. "If it were possible for me to talk with them now," he reflected, "I would tell them that my ideas have changed from theirs somewhat. I now think that a religion based solely on science is not enough. There are certain 'mythological' elements in every one of us, which cannot be altogether lost in favor of science. This is a conviction I have come to."
What had changed? First of all, two world wars. As the contemporary writer Kurt Vonnegut has wryly observed, “We took scientific truth and dropped it on the people of Hiroshima.” Suzuki was, of course, Japanese; he felt directly the negative weight of modern science. Having survived the brutal experience of a war initiated, carried out, and ended with weapons of mass destruction born of modern science, he was left less sanguine about the idyllic marriage with religion and science that he had heralded at the turn of the century. Suzuki was enjoying the wisdom of hindsight; but in fairness to Suzuki, so were many other people.
Since Suzuki's turnabout in 1959, there have been even further, more fundamental challenges to the presumed closeness of Buddhism and science. Questions have arisen in two areas. One, as a society we have come to reassess the blessings and the promise of modern science in terms of the socio-psychological impact. While people are mesmerized by science and dream about what science can do for them, they also have nightmares about what science can do to them. This bittersweet realization lingers in the contemporary psyche: we dream about all the wonderful things science is going to do for us; at the same time we are haunted by unsettling specters of the dreadful things science could do to us. This concern and troubling ambivalence seems to grow, not diminish, with each scientific advance.
At the popular level, movies and television play on variations of the Frankenstein, Godzilla, the X-Files motif, reflecting anxieties over science-gone-wrong. These "monsters" give form (albeit imaginary) to some of humanity's deepest fears. They reflect not only the apprehension of Pandora's box unearthed, but more significantly, the hubris of human pride and lust for power unrestrained. Nowhere is this more evident than in the new field of biotechnology—the actual manipulation of life at the subtle genetic source. Scientists now talk of the end of evolution, the end of nature, in the sense that humans will soon replace nature to direct the course of creation themselves. Doctor Panayiotis Zavos, who is now actively engaged in producing the first human clone, announced proudly, ``Now that we have crossed into the third millennium, we have the technology to break the rules of nature.''
Thus, the development and unleashing of "advanced" weapons of mass destruction through two World Wars, the Cold War, and now almost daily in "hot spots" throughout the world; the unenlightened tampering with nature that has brought about widespread environmental pollution; the almost cavalier experiments with human reproduction, cloning, genetically engineered life, chemical-biological warfare—all threaten to make reality more frightening than fiction.
The second area of doubt regarding modern science arises from within the scientific community itself. The last decades of the 20th century have seen an internal reexamination take place within almost every scientific discipline, as each has been forced to question its own foundations and exclusive claims to truth. We are in the midst of a major paradigm shift, the outcome of which still remains unclear. It revolves around a loss of the positivistic certainty that science once enjoyed and now finds slipping away. Ironically, the scientific "establishment" finds itself confronting a challenge to its exclusive authority that in many ways mirrors the spiritual crisis that religious orthodoxy faced with the triumph of modern science.
Sigmund Freud exemplifies this ironic shift. Perhaps more than any modern thinker, he contributed to the undermining of religious certainty. He stated quite unequivocally that “an illusion would be to suppose that what science would not give us, we can get elsewhere.” Elsewhere, of course, refers to religion, as he made clear in his pessimistic indictment of religion in The Future of an Illusion. And yet his own psychoanalytic theory has become a matter of intense debate, and has come under the critical scrutiny of the very scientific system he felt would validate his ideas. But it is in areas other than psychology, most notably in physics, and increasingly in the life sciences, that a growing body of new knowledge is beginning to strain existing models of explanation and understanding.
With the ground-breaking work of Niels Bohr, Heisenberg, and Sir Arthur Eddington, the rock-solid presupposition central to that classical scientific thought began to crumble. With the "new science" that started to emerge in the post-World War II era, the observer and the observed could not be presumed separate and distinct. Gone too was the neat subject/object distinction that had come to define classical science. This shift away from the study of the "outside" objective world of nature to the "inner" subjective world of the observer is a hallmark of the new science. As Heisenberg observed, “Even in science, the object of research is no longer nature itself, but man’s investigation of nature.”
For example, Heisenberg pointed out that the very act of measurement interfered with what one was attempting to measure. You cannot separate the subject from the object of the experiment. So, if the scientist changes the very nature of the "reality" he or she investigates, then what is truth? What is purely objective fact? Where does the boundary lie (indeed, if there is one) between the mind and the external world? Consequently, the quantum theory of the new physics no longer claims to be describing "reality." It describes probable realities. The new physics looks for possible realities and finds them so elusive that no one model can exhaustively account for everything. The indeterminacy of models has replaced earlier certainties.
Some, like Thomas Kuhn, even questioned the notion of science as an objective progression towards truth. In The Structure of Scientific Revolutions (1962), Kuhn observed that science, like religion, becomes heavily encumbered with its own baggage of non-rational procedures. Science accumulates its peculiar set of presuppositions, doctrines, and even heresies. Kuhn essentially demolished the logical empiricist and purist view that science personified the impartial progression towards a universal truth. Instead, he saw it as a series of shifting "paradigms"—a global way of seeing things which is relatively immune from disconfirmation by experience. One paradigm would hold sway for awhile, only to be displaced in a "revolution" by another conceptual worldview. These paradigms, both self-contained and self-perpetuating, tended to conserve and perpetuate their own ideas, just as religion tends to conserve and perpetuate its own beliefs.
For example, Galileo declared in the early 1600s that Copernicus was correct: The earth moves, and the sun is the center of our galaxy. The Church denounced these views as heresies and dangerous to the Faith. They forced Galileo to recant during a trial under the Inquisition. Although he was publicly compelled to affirm the existing "scientific" paradigm, Galileo still defied the authorities. After getting up from his knees, he is said to have mumbled "E pur si muove" (nevertheless it still moves). Placed under house arrest, Galileo lived out the rest of his life in seclusion.
The world, of course, shifted paradigms to accept the Copernican worldview. The Church, however, lagged behind, and only in 1992 did the Vatican lift the 1616 ban on the Copernican teaching. Einstein, whose theory of relativity was at first met with skepticism and doubt, later became an icon of scientific genius. And yet, even Einstein found himself resisting the new theories of the quantum physicists towards the end of his life—once again adding credibility to Kuhn's thesis.
Whether Kuhn is correct or not is beside the point. His critique illustrates a larger trend: the suspicion that science does not have absolute answers, nor even ultimate authority. Thus, modern science presents less of a unified front, less of a final bastion of truth. Certainly many people still see themselves as living in a black and white world. But, in general, many scientists are coming to define their discipline in a more humble and tentative way. Science, for people at the turn of the century, stood for absolute, fixed truths and principles that held good forever; it embraced and explained an unchanging reality, or at least a reality that was changing according to constant and predictable laws. Today we are more modest, less presumptuous. A better working definition of science now might be “a form of inquiry into natural phenomena; a consensus of information held at any one time and all of which may be modified by new discoveries and new interpretations at any moment.” In contemporary science, uncertainty seems to be the rule.
Thus, it grows increasingly difficult to believe in an external world governed by mechanisms that science discloses once and for all. Thoughtful people find themselves hesitant, unmoored, with an up-in-the-air kind of feeling regarding the most basic facts of life. It is said that "we live in an age when anything is possible and nothing is certain." This post-modern dilemma highlights the felt need to reconcile facts and values, morals and machines, science with spirituality. And while traditional Judaeo-Christian theologies struggle to address this particularly contemporary malaise, Buddhism maneuvers this tricky terrain with apparent ease and finds itself sought after with renewed interest and popularity.
Moreover, some observers have puzzled over this anomaly: Asia accelerates in its secular and material modernization (read "Westernization"), while the West shows signs of a spiritual revitalization drawing on largely Asian sources—especially Buddhism. Buddhism is being 'Westernized' to be seen as a teaching that can mesh with both the good life and mitigate the stress of the faith/reason divide. Part of Buddhism's immense appeal lies in its analysis of the mind, the subject/self—exactly the area where modern science now senses the next breakthroughs are to be made.
The Buddha, well before Aquinas or Heisenberg, stressed the primacy of the mind in the perception and even "creation" of reality. A central concept of Buddhism is the idea that "everything is made from the mind." Any distinction between subject and object is false, imagined, at best an expedient nod to demands of conventional language. In the Avatamsaka Sutra, the Buddha uses metaphor to elucidate: "The mind is like an artist/It can paint an entire world. . . If a person knows the workings of the mind/As it universally creates the world/This person then sees the Buddha/And understands the Buddha's true and actual nature." (Chap. 20) We think we are observing nature, but what we are observing is our own mind at work. We are the subject and object of our own methodology. Moreover, this mind encompasses the entirety of the universe; there is nothing outside of it, nothing it does not contain, according to the Buddha.
Such insights early on intrigued Western thinkers, as Buddhism hinted of a new avenues of travel through the mind/matter maze. It led scientists like Albert Einstein to declare:
The religion of the future will be cosmic religion. It should transcend a personal God and avoid dogmas and theology. Covering both the natural and the spiritual, it should be based on a religious sense arising from the experience of all things, natural and spiritual and a meaningful unity. Buddhism answers this description. . . If there is any religion that would cope with modern scientific needs, it would be Buddhism.
The Nobel Prize winner was not alone in his positive assessment of the Buddhism's potential for going beyond the boundaries of Western thought. The British mathematician, philosopher Alfred North Whitehead declared, "Buddhism is the most colossal example in the history of applied metaphysics." His contemporary Bertrand Russell, another Nobel Prize winner, found in Buddhism the greatest religion in history because "it has had the smallest element of persecution." But beyond the freedom of inquiry he attributed to the Buddha's teaching, Russell discovered a superior scientific method—one that reconciled the speculative and the rational while investigating the ultimate questions of life:
Buddhism is a combination of both speculative and scientific philosophy. It advocates the scientific method and pursues that to a finality that may be called Rationalistic. In it are to be found answers to such questions of interest as: 'What is mind and matter? Of them, which is of greater importance? Is the universe moving towards a goal? What is man's position? Is there living that is noble?' It takes up where science cannot lead because of the limitations of the latter's instruments. Its conquests are those of the mind.
As early as the 1940’s, the pioneering physicist Niels Bohr sensed this congruence between modern science and what he called “Eastern mysticism.” As he investigated atomic physics and searched for a unified field of reality, he often used the Buddha and Lao Tzu in his discussions on physics in his classes. He made up his own coat of arms with the yin/yang symbol on it. The American physicist J. Robert Oppenheimer also saw in Buddhism a scientific parallel to the puzzling riddles of modern physics; his cutting-edge discoveries seemed to echo the enigmatic wisdom of the ancient sage. Wrote Oppeheimer:
If we ask, for instance, whether the position of the electron remains the same, we must say 'no;' if we ask whether the electron's position changes with time, we must say 'no;' if we ask whether the electron is at rest, we must say 'no;' if we ask whether it is in motion, we must say 'no.' The Buddha has given such answers when interrogated as to the conditions of man's self after his death; but they are not familiar answers for the tradition of seventeenth and eighteenth-century science.
In the 1970s, in The Tao Of Physics: An Exploration of the Parallels Between Modern Physics and Eastern Mysticism, Fritjof Capra expanded on some of Bohr’s and Oppenheimer's tentative impressions. He argued that modern science and Eastern mysticism offer parallel insights into the ultimate nature of reality. But, beyond this, Capra suggested that the profound harmony between these concepts as expressed in systems language and the corresponding ideas of Eastern mysticism was impressive evidence for a remarkable claim: That mystical philosophy offers the most consistent background to our modern scientific theories.
In the 1970s this notion came as something of a bombshell. Suddenly religion and science reunited—though in a rather unexpected way—Eastern religion and Western science. This echoed the excitement of a hundred years previous that Carus and other late Victorians sensed in Buddhism's potential. Then, however, the emphasis was on how Buddhism could help establish religion on a more scientific basis; now, it seems the other way around—that science is seeking Buddhism to stake out its spiritual or metaphysical claims.
Regardless, those familiar with Buddhist texts immediately saw (or thought they saw) the correctness of Capra's revelation. Certain Buddhist scriptures in fact seemed most solidly to confirm the linking of science and Dharma. The most oft-quoted is the famous teaching called the Kalama Sutta.
In this short discourse, we find the Buddha in his wanderings coming upon the village of the Kalamas. Religious seekers themselves, the Kalamas were bewildered by the plethora of divergent philosophies and teachers vying for their attention. They proceeded to ask the Buddha a series of questions. Here is the relevant portion of the text:
The Buddha once visited a small town called Kesaputta in the kingdom of Kosala. The inhabitants of this town were known by the common name Kalama. When they heard that the Buddha was in their town, the Kalamas paid him a visit, and told him:
"Sir, there are some recluses and brahmanas who visit Kesaputta. They explain and illumine only their own doctrines, and despise, condemn and spurn others' doctrines. Then come other recluses and brahmanas, and they, too, in their turn, explain and illumine only their own doctrines, and despise, condemn and spurn others' doctrines. But, for us, Sir, we have always doubt and perplexity as to who among these venerable recluses and brahmanas spoke the truth, and who spoke falsehood."
"Yes, Kalamas, it is proper that you have doubt, that you have perplexity, for a doubt has arisen in a matter which is doubtful. Now, look you Kalamas, do not be led by reports, or tradition, or hearsay. Be not led by the authority of religious texts, not by mere logic or inference, nor by considering appearances, nor by the delight in speculative opinions, nor by seeming possibilities, nor by the idea: 'this is our teacher'. But O Kalamas, when you know for yourselves that certain things are unwholesome (akusala), and wrong, and bad, then give them up...And when you know for yourselves that certain things are wholesome (kusala) and good, then accept them and follow them."
The Kalamas voiced their doubts, their perplexity in determining truth or falsehood, as a result of having been exposed to all the competing teachers and doctrines of India at the time: not unlike our modern world today. Each teacher, each school, expounded different and often conflicting notions of the truth. The Buddha's response was to set down a methodology that was in many ways ahead of its time in anticipating the skeptical empiricism of the modern scientific method.
He said, “Do not be led by reports, or tradition, or hearsay. Don’t be led by the authority even of religious texts, nor by mere logic or inference, nor by considering appearances”—all of which eliminate exclusive reliance on cultural convention, received tradition, and deductive speculation, as well as mere sense impressions. Also rejected were opinions and "seeming possibilities"—the stuff of preconceived bias and subjective imagination and fancy. (Some might argue that being "led by appearances" would include a narrow scientific method, at least as it has come to be popularly understood—i.e. an exaggerated reliance on natural phenomena as the only basis of what is true or real. It would also dismiss the equally exaggerated claim that scientific knowledge is the only valid kind of knowledge.The Buddha even discounts blind faith in one's teacher.
So what's left? Here the Buddha lays out a subtle and quite unique epistemology: “Oh Kalamas, when you know for yourselves that certain things are unwholesome and wrong and bad, then give them up. And when you know that certain things are wholesome and good, then accept them and follow them.” But how to interpret this key passage?
Many scholars and believers, both recently and at the turn of the century, jumped at this passage as confirmation that ancient Buddhist wisdom validates modern science. Early popularizers of Eastern religions in America like Anagarika Dharmapala, D. T. Suzuki, Paul Carus, and even Vedantists like Vivekananda, generally waxed enthusiastic about the compatibility of Eastern spirituality and Western science. They saw in passages like the Kalama Sutta proof positive that the Buddha prefigured the modern scientific outlook. Buddhism seemed eminently scientific: detached skeptical investigation of empirically testable phenomena; no faith, no dogma, no revelation. Experiments carried out by and confirmed by individuals regardless of time or place suggested "intersubjective testability"—one of the hallmarks of the scientific method. I do it, you do it; anyone can do it and obtain the same results. That Buddhism and science should be so nearly identical was understandably immensely appealing; it is also misleading.
While American thinkers and newly converted Western Buddhists thought they saw a natural fit between Buddhism and science, Buddhist teachers more steeped in the traditional discipline were less apologetic and often more critical of such facile comparisons. Two notable contemporary examples come to mind: Master Hsuan Hua, from the Mahayana tradition, and Wapola Rahula, a Theravada scholar-monk, both threw cold water on this notion.
The Venerable Hsuan Hua, a Ch'an and Tripitika master from China, arrived in America in the early 1960s to propagate the Dharma in the West. As he observed and studied the trends and currents of contemporary thought, he showed little enthusiasm for what seemed to him the exaggerated claims of modern science—theoretical or applied. He said, “Within the limited world of the relative, that is where science is. It’s not an absolute Dharma. Science absolutely cannot bring true and ultimate happiness to people, neither spiritually nor materially.” This is strong criticism that portrays science as a discipline limited to relative truths, and as an unsatisfactory way of life. In another essay, he wrote:
Look at modern science. Military weapons are modernized every day and are more and more novel every month. Although we call this progress, it’s nothing more than progressive cruelty. Science takes human life as an experiment, as child’s play, as it fulfills its desires through force and oppression.
In 1989, Venerable Walpola Rahula, a Theravadin monk from Sri Lanka, also warned that daily life is being permeated by science. He cautioned, “We have almost become slaves of science and technology; soon we shall be worshipping it.” His comments come well into the final decades of the twentieth century, when many people had in effect turned science into a religious surrogate. The Venerable monk observed, “Early symptoms are that they tend to seek support from science to prove the validity of our religions.” Walpola Rahula elaborated on this point:
We justify them [i.e. religions] and make them modern, up-to-date, respectable, and accessible. Although this is somewhat well intentioned, it is ill-advised. While there are some similarities and parallel truths, such as the nature of the atom, the relativity of time and space, or the quantum view of the interdependent, interrelated whole, all these things were developed by insight and purified by meditation.
Rahula's critique goes to the heart of the matter: the capitulation of religion to scientific positivism; the yielding of almost all competing schemes of values to the scientific juggernaut. Huston Smith, the eminent scholar on the worlds religions, recently said that the weakness of modern religions in the West stems from their successful accommodation to culture. The contribution that Buddhism and other religions can make to the spiritual crisis facing modern society, therefore, may not lie in their compatibility with science, but in their ability to offer something that science cannot.
More importantly, as Rahula argues, Dharma, or abiding spiritual truths, were discovered without the help of any external instrument. Rahula concluded, “It is fruitless, meaningless to seek support from science to prove religious truth. It is incongruous and preposterous to depend on changing scientific concepts to prove and support perennial religious truths.” Moreover, he echoes the deeper moral concerns expressed by Master Hua regarding the unexamined aims and consequences of the scientific endeavor:
Science is interested in the precise analysis and study of the material world, and it has no heart. It knows nothing about love or compassion or righteousness or purity of mind. It doesn’t know the inner world of humankind. It only knows the external, material world that surrounds us.
Rahula then suggests that the value of Buddhism redoubles, not as it can be made to seem more scientific, but in its reaffirming a different sensibility, an overarching and unyielding vision of humanity's higher potential. He concludes emphatically:
On the contrary, religion, particularly Buddhism, aims at the discovery and the study of humankind’s inner world: ethical, spiritual, psychological, and intellectual. Buddhism is a spiritual and psychological discipline that deals with humanity in total. It is a way of life. It is a path to follow and practice. It teaches man how to develop his moral and ethical character, which in Sanskrit is sila, and to cultivate his mind, samadhi, and to realize the ultimate truth, prajna wisdom, Nirvana.
Both of these eminent monks pre-date and, in many ways, stand outside the popularization and "Westernization" of Buddhism. Unlike the Western-leaning translators of Buddhism Carus, Suzuki, Dharmapala, et al., they emerged from a monastic discipline grounded in a more traditional understanding, one less enamored of modern science and more critical of Western philosophy. They would not so readily concur with Sir Edwin Arnold, who wrote in his best-selling Light of Asia (1879) that "between Buddhism and modern science there exists a close intellectual bond."
With this in mind, it would do well to take another look at the passage quoted above from the Kalama Sutta:
But O Kalamas, when you know for yourselves that certain things are unwholesome (akusala), and wrong, and bad, then give them up...And when you know for yourselves that certain things are wholesome (kusala) and good, then accept them and follow them.
These lines, I believe, hold the key to understanding the difference between Buddhism and modern science. The passage needs to be understood not simply as a nod to Western empiricism, but within a specific context of moral inquiry. This "knowing for yourself" locates knowledge ('scientia') firmly within the moral sphere, both in its aims and its outcomes. It employs a meditative form of insight to penetrate the ultimate nature of reality. It implies a concept quite foreign to modern science: that the knower and what is known, the subject and object, fact and value, are not merely non-dual, but that knowledge itself is inescapably influenced by our moral and ethical being. Perhaps this is exactly what Suzuki intuited was lacking in modern science when he wrote in 1959, "I now think that a religion based solely on science is not enough. There are certain 'mythological' elements in every one of us, which cannot be altogether lost in favor of science."
Regardless, none of this critical reassessment should come as a surprise to thoughtful Buddhists. The Shurangama Sutra clearly notes, "when the seed planted is crooked, the fruit will be distorted." The close link between intention and result, cause and effect, is central to all Buddhist philosophy. It should be obvious and expected that the very fabric of modern science, lacking as it does a firm grounding in the moral sphere, would result in deleterious discoveries and incomplete uses. Tragic examples abound attesting to the ill-fated marriage of scientific technology and human ignorance.
Nor, from a Buddhist perspective, can these examples be seen as unintended consequences or accidents—they are, rather, unavoidable and logical outcomes of a partial though powerful system of thought. There is nothing in science per se that would lead one to equate its advancement with increased social benefits and enhanced human values. And certainly the absence of ethical imperatives should alert any knowledgeable Buddhist to a fundamental flaw in equating the Eightfold Way with the practice of science. In fact, a close reading of the Buddhist sources, it seems, would lead one to question: Is science in itself sufficient for describing reality? Is it capable of meeting human needs?
Thus, the aforementioned Kalamas passage, depending on one's frame of reference, could be seen more as a critique of than a correspondence with modern science. The key to understanding this difference lies in a correct Buddhist interpretation of "know for yourselves," "wholesome," and "unwholesome." As Walpola Rahula indicates, these concepts are part of a specific and disciplined form or methodology of self-cultivation which, when diligently practiced, leads to true knowledge and wisdom. This method is referred to in Buddhism as the "three non-outflow science" (san wu lou xue), and consists of morality, concentration, and wisdom (Sanskrit: sila, samadhi, prajna).
The ethical component cannot be overemphasized, as "seeing things as they really are" entails an indispensable preliminary: "purification of the mind." This clarity of mind and concentrated awareness in turn begins with and must be sustained by moral conduct. The Visuddhimagga (Path of Purification), an early Buddhist manual compiled in the 4th century by Buddhagosha, lists the Buddha's "science" of inquiry as an interrelated three-step exercise of virtue, meditation, and insight. This is quite a different approach to knowledge than a modern-day scientist would presume or pursue. It is interesting that these ancient wisdom traditions considered moral purity as the absolute prerequisite of true knowledge, and that we today regard it as immaterial, if not downright irrelevant. Thus, fundamental and qualitatively different views of what constitutes knowledge and the acquisition of knowledge separate Buddhism and science.
Aspects of the above epistemological formula appear throughout the Asian religious traditions. For example, Taoism speaks of cultivating the mind (hsin), regarding it as the repository of perceptions and knowledge—it rules the body, it is spiritual and like a divinity that will abide "only where all is clean." Thus the Kuan Tzu (4 to 3rd century B.C.) cautions that "All people desire to know, but they do not inquire into that whereby one knows." It specifies:
What all people desire to know is that (i.e., the external world),
But their means of knowing is this (i.e. oneself);
How can we know that?
Only by the perfection of this. 1
Are we studying ourselves when we think we are studying nature? Will the "new science" eventually come to Kuan Tzu's conclusion that only “by perfecting this," can we truly know that? These ancient writings raise an interesting question: How accurate and objective can be the observation if the observer is flawed and imperfect? Is the relationship between "consciousness" and matter as distinct as we are inclined to believe?
The "perfection" mentioned above refers to the cultivation of moral qualities and in Buddhist terminology, the elimination of "afflictions" (klesa) such as greed, anger, ignorance, pride, selfishness, and emotional extremes. It seems less an alteration of consciousness than a purification and quieting of the mind. Mencius talks of obtaining an "unmoving mind" at age forty, again referring to the cultivation of an equanimity resulting from the exercise of moral sense. He distinguished between knowledge acquired from mental activity and knowledge gained from intuitive insight. This latter knowledge he considered superior as it gives noumenal as well as phenomenal understanding. Advaita Vedanta, the philosophical teaching of Hinduism, as well emphasizes that jnana (knowledge) requires a solid basis in ethics (Dharma). Chuang Tzu, spoke of acquiring knowledge of "the ten thousand things" (i.e., of all nature) through virtuous living and practicing stillness: "to a mind that is 'still' the whole universe surrenders." 2 Even Confucius's famous passage concerning the highest learning (da xue) connects utmost knowledge of the universe to the cultivation of one's person and the rectification of one's mind. 3
The challenge from these eminent Buddhist teachers to the nearly ex cathedra authority generally accorded to science should give pause to anyone attempting a facile identification of Buddhism with science. Their aims and methods, though tantalizingly parallel, upon closer analysis diverge. Correspondences do exist, but fundamental differences inhere as well. To gloss over them not only encourages sloppy thinking, but approaches hubris. So we must ask: to what extent is our conception of science as the arbiter of knowledge culture-bound, even myopic? Could our near total faith in science blind us to an inherent bias in such a stance: we presume that the logic, norms, and procedures of the scientific method are universally applicable and their findings are universally valid. Science may not only have limited relevance for interpreting Buddhism, but may distort our very understanding of its meaning.
Thus, in a quest to reach an easy and elegant reconciliation of faith and reason, we may unwittingly fall prey to "selective perception"—noticing and embracing only those elements of Buddhism that seem consonant with our way of thinking and giving short shrift to the rest. Overplaying the similarities between science and Buddhism can lead into a similar trap, where our dominant Western thought-way (science) handicaps rather than helps us to understand another worldview. In Buddhism, this is called "the impediment of what is known."
It may prove more salutary to allow Buddhism to "rub us the wrong way" — to challenge our preconceptions and habitual ways, to remain strange and different from anything to which we have been accustomed. To borrow a metaphor from Henry Clarke Warren, we might enjoy a "walking in Fairyland" in shoes that do not quite fit:
A large part of the pleasure that I have experienced in the study of Buddhism has arisen from what I may call the strangeness of the intellectual landscape. All the ideas, the modes of argument, even the postulates assumed and not argued about, have always seemed so strange, so different from anything to which I have been accustomed, that I felt all the time as though walking in Fairyland. Much of the charm that the Oriental thoughts and ideas have for me appears to be because they so seldom fit into Western categories. 4
1 ArthurWaley, The Way And Its Power: A Study of the Tao Te Ching and Its Place in Chinese Thought (New York: Grove Press, 1958), 47.
2 ibid, 58.
3 James Legge, Confucius: Confucian Analects, The Great Learning, and The Doctrine of the Mean [Translated by James Legge], (New York: Dover, 1893, 1971), 4-7.
4 Henry Clarke Warren, Buddhism In Translations (Cambridge: Harvard University Press, 1896), 283-84.
Two of the 'seed quotations' in my own life. Good to see them again.