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The central claim of the book is that the theory of quantum mechanics and the theory of relativity together help us understand how universes could have formed out of nothing. [9] The authors write: Because there is a law such as gravity, the universe can and will create itself from nothing.
In the late 1920s, the then new quantum mechanics showed that the chemical bonds between atoms were examples of (quantum) electrical forces, justifying Dirac's boast that "the underlying physical laws necessary for the mathematical theory of a large part of physics and the whole of chemistry are thus completely known". [24]
A Universe from Nothing: Why There Is Something Rather than Nothing is a non-fiction book by the physicist Lawrence M. Krauss, initially published on January 10, 2012, by Free Press. It discusses modern cosmogony and its implications for the debate about the existence of God .
This is different from the deterministic way in which classical physics proceeds, and means even the best calculations that physicists can come up with in regard to quantum experiments are mere ...
This question has been written about by philosophers since at least the ancient Parmenides (c. 515 BC). [1] [2]"Why is there anything at all?" or "Why is there something rather than nothing?" is a question about the reason for basic existence which has been raised or commented on by a range of philosophers and physicists, including Gottfried Wilhelm Leibniz, [3] Ludwig Wittgenstein, [4] and ...
Craig argues that the quantum vacuum state, in containing measurable energy, cannot be characterised as nothing, therefore, that phenomena originating from the quantum vacuum cannot be described as uncaused. On the topic of virtual particles, he writes: [43] "For virtual particles do not literally come into existence spontaneously out of nothing.
The laws of physics demand the existence of something called 'negative energy'. To help you get your head around this weird but crucial concept, let me draw on a simple analogy. Imagine a man wants to build a hill on a flat piece of land.
The book compiles the essential works from the scientists that changed the face of physics, including works by Niels Bohr, Max Planck, Werner Heisenberg, Erwin Schrodinger, J. Robert Oppenheimer, Richard Feynman, and Max Born. [1]