Autobiography of a Yogi (Rediscovered Books). Paramhansa Yogananda
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“But high success is not to be obtained without rigid exactitude. Hence the long battery of super-sensitive instruments and apparatus of my design, which stand before you today in their cases in the entrance hall. They tell you of the protracted efforts to get behind the deceptive seeming into the reality that remains unseen, of the continuous toil and persistence and resourcefulness called forth to overcome human limitations. All creative scientists know that the true laboratory is the mind, where behind illusions they uncover the laws of truth.
“The lectures given here will not be mere repetitions of second-hand knowledge. They will announce new discoveries, demonstrated for the first time in these halls. Through regular publication of the work of the Institute, these Indian contributions will reach the whole world. They will become public property. No patents will ever be taken. The spirit of our national culture demands that we should forever be free from the desecration of utilizing knowledge only for personal gain.
“It is my further wish that the facilities of this Institute be available, so far as possible, to workers from all countries. In this I am attempting to carry on the traditions of my country. So far back as twenty-five centuries, India welcomed to its ancient universities, at Nalanda and Taxila, scholars from all parts of the world.
“Although science is neither of the East nor of the West but rather international in its universality, yet India is specially fitted to make great contributions. The burning Indian imagination, which can extort new order out of a mass of apparently contradictory facts, is held in check by the habit of concentration. This restraint confers the power to hold the mind to the pursuit of truth with an infinite patience.”
Tears stood in my eyes at the scientist’s concluding words. Is “patience” not indeed a synonym of India, confounding Time and the historians alike?
I visited the research center again, soon after the day of opening. The great botanist, mindful of his promise, took me to his quiet laboratory.
“I will attach the crescograph to this fern; the magnification is tremendous. If a snail’s crawl were enlarged in the same proportion, the creature would appear to be traveling like an express train!”
My gaze was fixed eagerly on the screen which reflected the magnified fern-shadow. Minute life-movements were now clearly perceptible; the plant was growing very slowly before my fascinated eyes. The scientist touched the tip of the fern with a small metal bar. The developing pantomime came to an abrupt halt, resuming the eloquent rhythms as soon as the rod was withdrawn.
“You saw how any slight outside interference is detrimental to the sensitive tissues,” Bose remarked. “Watch; I will now administer chloroform, and then give an antidote.”
The effect of the chloroform discontinued all growth; the antidote was revivifying. The evolutionary gestures on the screen held me more raptly than a “movie” plot. My companion (here in the role of villain) thrust a sharp instrument through a part of the fern; pain was indicated by spasmodic flutters. When he passed a razor partially through the stem, the shadow was violently agitated, then stilled itself with the final punctuation of death.
“By first chloroforming a huge tree, I achieved a successful transplantation. Usually, such monarchs of the forest die very quickly after being moved.” Jagadis smiled happily as he recounted the life- saving maneuver. “Graphs of my delicate apparatus have proved that trees possess a circulatory system; their sap movements correspond to the blood pressure of animal bodies. The ascent of sap is not explicable on the mechanical grounds ordinarily advanced, such as capillary attraction. The phenomenon has been solved through the crescograph as the activity of living cells. Peristaltic waves issue from a cylindrical tube which extends down a tree and serves as an actual heart! The more deeply we perceive, the more striking becomes the evidence that a uniform plan links every form in manifold nature.”
The great scientist pointed to another Bose instrument.
“I will show you experiments on a piece of tin. The life-force in metals responds adversely or beneficially to stimuli. Ink markings will register the various reactions.”
Deeply engrossed, I watched the graph which recorded the characteristic waves of atomic structure. When the professor applied chloroform to the tin, the vibratory writings stopped. They recommenced as the metal slowly regained its normal state. My companion dispensed a poisonous chemical. Simultaneous with the quivering end of the tin, the needle dramatically wrote on the chart a death-notice.
“Bose instruments have demonstrated that metals, such as the steel used in scissors and machinery, are subject to fatigue, and regain efficiency by periodic rest. The life-pulse in metals is seriously harmed or even extinguished through the application of electric currents or heavy pressure.”
I looked around the room at the numerous inventions, eloquent testimony of a tireless ingenuity.
“Sir, it is lamentable that mass agricultural development is not speeded by fuller use of your marvelous mechanisms. Would it not be easily possible to employ some of them in quick laboratory experiments to indicate the influence of various types of fertilizers on plant growth?”
“You are right. Countless uses of Bose instruments will be made by future generations. The scientist seldom knows contemporaneous reward; it is enough to possess the joy of creative service.”
With expressions of unreserved gratitude to the indefatigable sage, I took my leave. “Can the astonishing fertility of his genius ever be exhausted?” I thought.
No diminution came with the years. Inventing an intricate instrument, the “Resonant Cardiograph,” Bose then pursued extensive researches on innumerable Indian plants. An enormous unsuspected pharmacopoeia of useful drugs was revealed. The cardiograph is constructed with an unerring accuracy by which a one-hundredth part of a second is indicated on a graph. Resonant records measure infinitesimal pulsations in plant, animal and human structure. The great botanist predicted that use of his cardiograph will lead to vivisection on plants instead of animals.
“Side by side recordings of the effects of a medicine given simultaneously to a plant and an animal have shown astounding unanimity in result,” he pointed out. “Everything in man has been foreshadowed in the plant. Experimentation on vegetation will contribute to lessening of human suffering.”
Years later Bose’s pioneer plant findings were substantiated by other scientists. Work done in 1938 at Columbia University was reported by The New York Times as follows:
It has been determined within the past few years that when the nerves transmit messages between the brain and other parts of the body, tiny electrical impulses are being generated. These impulses have been measured by delicate galvanometers and magnified millions of times by modern amplifying apparatus. Until now no satisfactory method had been found to study the passages of the impulses along the nerve fibers in living animals or man because of the great speed with which these impulses travel.
Drs. K. S. Cole and H. J. Curtis reported having discovered that the long single cells of the fresh-water plant nitella, used frequently in goldfish bowls, are virtually identical with those of single nerve fibers. Furthermore, they found that nitella fibers, on being excited, propagate electrical waves that are similar in every way, except velocity, to those of the nerve fibers in animals and man. The electrical nerve impulses in the plant were found to be much slower than those in animals. This discovery was therefore seized upon by the Columbia workers as a means for taking slow motion pictures of the passage of the electrical impulses in nerves.