This installation thus offers both macro and micro perspectives of optical phenomena, which Corse relates to the so -
called uncertainty principle, the basis of quantum mechanics that is an area of personal study for the artist.
His new result made use of a pillar of quantum theory
called the uncertainty principle, according to which the detailed properties of an object — its position or velocity, for example — can never be completely pinned down.
Not exact matches
The Supreme Court has
called this «first general constitutional
principle» and said finding otherwise «would create serious
uncertainty.»
Even the so -
called - and much misunderstood -
uncertainty principle, and quantum physics as a whole, work according to precise levels of mathematically expressible variability within a defined system.
It is instead filled with so -
called virtual particles, popping in and out of existence and living on borrowed time and borrowed energy in accordance with Heisenberg's famous
uncertainty principle.
Equally striking, if less well known, are the so -
called squeezed quantum states: Normally, Heisenberg's
uncertainty principle means that one can not measure the values of certain pairs of physical quantities, such as the position and velocity of a quantum particle, with arbitrary precision.
The molecule's strange properties can only be explained using a theory from quantum mechanics
called Heisenberg's
uncertainty principle, which states that an atom's momentum and position can never both be known precisely.
Owenvsgenius, you can't measure everything: this is
called «the
uncertainty principle».
The precautionary
principle, which
calls for extra prudence in areas of scientific
uncertainty, also applies.
On further reflection I believe that in
principle it doesn't matter how you measure
uncertainty (I guess this is what you
called bias for individual runs), especially if the aforementioned kind of baseline is unknown.