Copyright 2012 James Dunn
The Uncertainty Principle teaches us that an evolution of system tools will need to be developed to monitor root entanglement events.
All of what you perceive is composed of connected entanglements. We perceived our environment as relativistic relationships between vast systems of entanglement.
Every sub-atomic particle is entangled with millions/trillions of other sub-atomic particles each of which are being collectively influenced. So to predict the exact state of something would require knowledge of all those entanglements; or a system would need to monitor without influence those entanglements. Of which can be done using an independent nested singularity.
That would provide simultaneous measurement of position and momentum.
We just have not as yet developed the independent singularity to be able to produce these systems.
A nested independent singularity is theorized to be a chain of entanglements (function) that are not entangled with any other entanglements in our universe.
The first attempt is the making an entanglement in a lab, and then cutting off and breaking all other entanglements with outside references. The problem of course is how do you know it exists, if it is not entangled with anything else. So this is the present focus of effort.
This function (properties of acceleration for instance) would entangle easily with spin (angular acceleration) to provide backward connectivity of a single spinning neutron (for instance). All entanglements would then connect to the contrived singularity providing a continuously biased seed to grow a network of probability chains (functioned entanglements) based upon position and momentum.
These update instantaneously so that knowing the precise position and momentum is a continuous function in our frame of reference.
Entanglement is the root of all things relativistic in our universe. We exist in a singularity.
A method of capturing a snapshot without disturbing the system is necessary, or the act of measurement introduces new systems of entanglement with the monitored neutron.
By providing limited entanglements with a second nested singularity, the first nested singularity acts as an isolator to insulate the act of measurement from the system being monitored.
In the second singularity, white matter is entangled via a single entry functioned entanglement to provide a triggered instantaneous reference that is captured and held so that we can interpret or act upon the related results.
However, if we are going to be playing with time and space in our garages; shouldn't we have the common sense to take adequate precautions?
Common Sense = Voice + Logic + Predicting Consequences
Teaching Common Sense = Debate (not discussion) + Critical Thinking + Analyzing any issues of sustainability (any subject)
The equation of uncertainty principle is ΔxΔp≥ℏ.
Uncertainty Principle - 2010 I was released on: USA: January 2010
Heisenberg's uncertainty principle affects the behaviour of orbitals.
Since it is called "the Heisenberg Uncertainty Principle" it is neither a scientific law nor a theory. It is a principle.
Germany
The cast of The Uncertainty Principle - 2011 includes: Olivia Chappell Dan Mersh
The Uncertainty Principle - The Spectacular Spider-Man - was created on 2008-05-10.
Einstein is. Check the uncertainty principle.
The heisenberg uncertainty principle is what you are thinking of. However, the relation you asked about does not exist. Most formalisms claim it as (uncertainty of position)(uncertainty of momentum) >= hbar/2. There is a somewhat more obscure and less useful relation (uncertainty of time)(uncertainty of energy) >= hbar/2. But in this relation the term of uncertainty of time is not so straightforward (but it does have an interesting meaning).
Werner Heisenberg published this principle in 1927.
The Uncertainty Principle - 2001 was released on: USA: 20 October 2001 (Hot Springs Documentary Film Festival)
The minimum kinetic energy that can be calculated according to the uncertainty principle is known as the zero-point energy.