What are transformations?
... Definition: A translation moves an object without changing its size or shape and without turning it or flipping it. ...
... Definition: A translation moves an object without changing its size or shape and without turning it or flipping it. ...
Gravity and Quantum Mechanics
... But for the information to get out, it would have to travel faster than light! Quantum Mechanics versus Relativity! ...
... But for the information to get out, it would have to travel faster than light! Quantum Mechanics versus Relativity! ...
Document
... What we ALWAYS see is the interaction of external probes (photons, W,Z bosons) with colour-singlet currents. Colour-singlet current has quantum numbers of a colourless meson, and from the point of photon, etc. behaves like a hadron – not an individual quark (e.g. VMD) In other words quarks have to c ...
... What we ALWAYS see is the interaction of external probes (photons, W,Z bosons) with colour-singlet currents. Colour-singlet current has quantum numbers of a colourless meson, and from the point of photon, etc. behaves like a hadron – not an individual quark (e.g. VMD) In other words quarks have to c ...
Bilbao - INFN - Sezione di Firenze
... The challenge: convert a beautiful theoretical/mathematical framework into something predictive ... and testable. Many unresolved puzzles in gravitation and cosmology (big bang, black holes, cosm..) probably do need a consistent way to combine GR and QM Insisting on theoretical consistency has paid ...
... The challenge: convert a beautiful theoretical/mathematical framework into something predictive ... and testable. Many unresolved puzzles in gravitation and cosmology (big bang, black holes, cosm..) probably do need a consistent way to combine GR and QM Insisting on theoretical consistency has paid ...
fundamental_reality\holographic principle
... have of the world, the number of variables grows like the volume. For example, if we want to describe an electromagnetic field [in a region of space], we divide the volume into many pieces and describe the field in every piece." If you double the volume of your region, you double the number of piece ...
... have of the world, the number of variables grows like the volume. For example, if we want to describe an electromagnetic field [in a region of space], we divide the volume into many pieces and describe the field in every piece." If you double the volume of your region, you double the number of piece ...
Nature`s Book Keeping System
... that nature’s ultimate book keeping device at the tiniest possible scales, must be simpler than any quantum mechanical one [8]. One should immediately add that, giving up general relativity and/or quantum mechanics, will bestow on us the burden to explain why both principles work so well in all doma ...
... that nature’s ultimate book keeping device at the tiniest possible scales, must be simpler than any quantum mechanical one [8]. One should immediately add that, giving up general relativity and/or quantum mechanics, will bestow on us the burden to explain why both principles work so well in all doma ...
