ELEMENTARY QUANTUM METAPHYSICS Once upon a
... mechanical world with the kind of Hamiltonian in Eq. (2) (notwithstanding the fact that a classical world with a Hamiltonian like that turns out to have three dimensions); and precisely the same thing will be true of a quantum-mechanical world with the kind of Hamiltonian in Equation (3) (notwithsta ...
... mechanical world with the kind of Hamiltonian in Eq. (2) (notwithstanding the fact that a classical world with a Hamiltonian like that turns out to have three dimensions); and precisely the same thing will be true of a quantum-mechanical world with the kind of Hamiltonian in Equation (3) (notwithsta ...
Unit 1: Kinematics - Pre University Courses
... Louis de Broglie believed that all entities have wave-like properties but these properties are only significant and measureable for tiny, fast-moving particles like the electron. Erwin Schrödinger imagined electron behaviour within the atom structure as a wave phenomenon, described by a wave mechani ...
... Louis de Broglie believed that all entities have wave-like properties but these properties are only significant and measureable for tiny, fast-moving particles like the electron. Erwin Schrödinger imagined electron behaviour within the atom structure as a wave phenomenon, described by a wave mechani ...
Measuring Quantum Entanglement
... suppose A is a large but finite region of space: what is the degree of entanglement of the spins within A with the reminder in B? since SA = SB it can’t be ∝ the volume of A or B in fact in almost all cases we have the area law: SA ∼ C × Area of boundary where D is the dimensionality of space. The c ...
... suppose A is a large but finite region of space: what is the degree of entanglement of the spins within A with the reminder in B? since SA = SB it can’t be ∝ the volume of A or B in fact in almost all cases we have the area law: SA ∼ C × Area of boundary where D is the dimensionality of space. The c ...
this PDF file - Department of Physics and Astronomy
... occur in quantum mechanics to a layman, it is simpler to use macroscopic analogies. For example, explaining quantum mechanical tunnelling by suggesting that it is possible, however unlikely, that a tennis ball will tunnel though the strings of a racket instead of simply bouncing off. This paper will ...
... occur in quantum mechanics to a layman, it is simpler to use macroscopic analogies. For example, explaining quantum mechanical tunnelling by suggesting that it is possible, however unlikely, that a tennis ball will tunnel though the strings of a racket instead of simply bouncing off. This paper will ...
