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So they resort to forced similes and grossly misleading metaphors (quantum tunneling means you can walk through walls—somehow it never works when I try it).

(2) Non-physicists who are intrigued by words like “uncertainty” and “indeterminacy,” but are too lazy to do the serious work it takes to understand them.

I think there are two villains here: (1) Physicists, who are (rightly) desperate to explain to the world the extraordinary, fascinating, and profound implications of quantum mechanics.

But they are afraid of intimidating an audience that gags at the sight of an equation; they want to convey the excitement without the substance.

Like light, Jesus exhibits properties from His dual natures.

You could say He is the true "God Particle." In his short tract he explains how Jesus "Quantum" himself in and out of the tomb and Mary's womb.

Many who acknowledged Capra had described quantum physics fairly though his correlations between it and Buddhist mysticism were superficial and silly, and Peter Woit noted the book used quite a bit of out-of-date physics.

Physicist John Gribbin described The Tao of Physics as the only purveyor of quantum-based mysticism that had any genuine grasp of quantum physics at all, In a joint review of both the Capra and Zukav books, physicist Jeremy Bernstein describe both collectively as not serious descriptions of quantum physics.

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However, Polkinghorne mainly employs the standard apologetic arguments from the anthropic principle and Isaac Newton's claim that the laws of physics require a lawgiver and a creation requires a creator.

Many respectable quantum physicists, including David Bohm, Erwin Schrödinger and Wolfgang Pauli, have noted the similarities between mystical and quantum worldviews. that the world envisioned by quantum mechanics is monistic, as taught in mystico-religious traditions: "The multiplicity is only apparent. Even having a basic understanding of quantum mechanics requires a working knowledge of differential, integral, multivariable, complex, vector and tensor calculus, differential equations, linear and abstract algebra, classic Newtonian mechanics and electromagnetism.