Siddhartha Mukherjee Quote
Technology, I said before, is most powerful when it enables transitions—between linear and circular motion (the wheel), or between real and virtual space (the Internet). Science, in contrast, is most powerful when it elucidates rules of organization—laws—that act as lenses through which to view and organize the world. Technologists seek to liberate us from the constraints of our current realities through those transitions. Science defines those constraints, drawing the outer limits of the boundaries of possibility. Our greatest technological innovations thus carry names that claim our prowess over the world: the engine (from ingenium, or ingenuity) or the computer (from computare, or reckoning together). Our deepest scientific laws, in contrast, are often named after the limits of human knowledge: uncertainty, relativity, incompleteness, impossibility. Of all the sciences, biology is the most lawless; there are few rules to begin with, and even fewer rules that are universal. Living beings must, of course, obey the fundamental rules of physics and chemistry, but life often exists on the margins and interstices of these laws, bending them to their near-breaking limit. The universe seeks equilibriums; it prefers to disperse energy, disrupt organization, and maximize chaos. Life is designed to combat these forces. We slow down reactions, concentrate matter, and organize chemicals into compartments; we sort laundry on Wednesdays. It sometimes seems as if curbing entropy is our quixotic purpose in the universe, James Gleick wrote. We live in the loopholes of natural laws, seeking extensions, exceptions, and excuses.
Technology, I said before, is most powerful when it enables transitions—between linear and circular motion (the wheel), or between real and virtual space (the Internet). Science, in contrast, is most powerful when it elucidates rules of organization—laws—that act as lenses through which to view and organize the world. Technologists seek to liberate us from the constraints of our current realities through those transitions. Science defines those constraints, drawing the outer limits of the boundaries of possibility. Our greatest technological innovations thus carry names that claim our prowess over the world: the engine (from ingenium, or ingenuity) or the computer (from computare, or reckoning together). Our deepest scientific laws, in contrast, are often named after the limits of human knowledge: uncertainty, relativity, incompleteness, impossibility. Of all the sciences, biology is the most lawless; there are few rules to begin with, and even fewer rules that are universal. Living beings must, of course, obey the fundamental rules of physics and chemistry, but life often exists on the margins and interstices of these laws, bending them to their near-breaking limit. The universe seeks equilibriums; it prefers to disperse energy, disrupt organization, and maximize chaos. Life is designed to combat these forces. We slow down reactions, concentrate matter, and organize chemicals into compartments; we sort laundry on Wednesdays. It sometimes seems as if curbing entropy is our quixotic purpose in the universe, James Gleick wrote. We live in the loopholes of natural laws, seeking extensions, exceptions, and excuses.
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About Siddhartha Mukherjee
After completing secondary school education in India, Mukherjee studied biology at Stanford University, obtained a D.Phil. from University of Oxford as a Rhodes Scholar, and an M.D. from Harvard University. He joined New York–Presbyterian Hospital / Columbia University Medical Center in New York City in 2009. As of 2018, he is an Associate Professor of Medicine in the Division of Hematology and Oncology.
Featured in the Time 100 list of most influential people, Mukherjee writes for The New Yorker and is a columnist in The New York Times. He is described as part of a select group of doctor-writers (such as Oliver Sacks and Atul Gawande) who have "transformed the public discourse on human health", and allowed a generation of readers a rare and intimate glimpse into the life of science and medicine. His research concerns the physiology of cancer cells, immunological therapy for blood cancers, and the discovery of bone- and cartilage-forming stem cells in the vertebrate skeleton.
The Government of India conferred on him its fourth highest civilian award, the Padma Shri, in 2014.