![]() Physicists have been grappling with the same issue. It has found the quantum world is far different from what we predict from our perspective above. While effective in real-world applications, as we delve deeper, we find roadblocks to the logic of how the tiniest parts of our reality behave. During the industrial revolution, the focus moved to how technology could break the natural world into its tiniest parts. Modern science has taken a very different approach. ![]() It arises from explaining living systems and the physics that govern them under one umbrella. They include the tiny cellular processes of our body to macroscopic movements of astronomical objects. Today researchers are uncovering the strange and ‘spooky’ implications that shatter notions of 20 th-century physiology.Įastern philosophies described the entire world we live in as being connected. The expression of DNA is one of those areas that keep re-writing itself. While still in its infancy, researchers are discovering new ways that quantum biology rewrites the foundations of natural biology. That means human physiology in a world of uncertainty, multiplicity, and infinite connectivity. Quantum biology is the application of quantum mechanics to the natural world. While the Internet connects two people on either side of the globe, could it also be possible that these types of links exist in biology? The cell phone in your pocket is connected, instantaneously, to nearly all information ever discovered by human civilization. In the 21 st century, the idea of an ever-present field of information is a part of everyday life. Could we all be truly biologically connected? Scientists are now studying tiny MicroRNAs that float through a genetic ‘ether’ and could describe a connected field that our DNA listens and entangles within. Today, quantum biology, the inevitable daughter of quantum physics, is beginning to break our perceptions of the rock-solid reality of the natural world. Defying many laws of classical physics, quantum entanglement has since been observed experimentally, and as with other arms of quantum mechanics, it defies the standard model. It predicts an action on one of two ‘entangled particles’ will instantaneously happen to the other. He was referring to the puzzling outcome suggested by quantum physics that two particles are connected while not in the direct vicinity. In the 1920s, Einstein labeled it as ‘spooky action’ at a distance. Scientists are studying how tiny strands of DNA called microRNAs create an interconnected web of genetic information.
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