We know large objects are subject to the Measurement Problem. So, is it the uncertainty of the individual atoms and not the whole object? If it is the whole object, is it because it using Vector for Momentum?
Do scalar volumes use the vector field for direction (velocity, acceleration, momentum, path)? Is physical matter considered scalar volumes? Could uncertainty be from scalar volumes using vector?
Is the energy associated with light from vector momentum to scalar energy?
Is a Bose-Einstein condensate causing a physical scalar volume to become vector waves? Is absolute zero impossible because the vector field is responsible for movement?
Is the vector field why waves are waves? Is it all possible paths that cause interference patterns? Do Scalar Volumes limit the number of possible paths? Does measurement cause Vector Waves to be Scalar?
Consider what momentum from vector would do to a scalar volume. I think there is something extremely fundamental here. Is position from Scalar? Is momentum from Vector?
Isn't Uncertainty all about Position and Momentum?
Vector quantum waves can decohere/localize from something that is already scalar. Quantum information isn't lost to the environment, it is used by its scalar volume to become physical matter. Coherent lasers can avoid causing decoherence (scalar volumes) because it is vector/virtual. This is why they are used in a Bose-Einstein condensate.
Vector/Virtual Light Waves can only be as physical as the energy it becomes as scalar. If it doesn't have mass, does that mean a scalar volume doesn't form?
Particles in superposition are not physical. If they were their weight would multiply from being in all possible paths.
Mass must be involved in the physical structure/volume of particles.
A vector and a vector quantity are two different things. A vector field is filled with vectors. A wave is defined by the number of vectors it used in the field. A non-local wave uses a lot more from all possible paths. The position might be considered vector, but the measured particle is Scalar.
The weird thing about electrons is that they are never point particles while in electron shells. They are forced to be a wave because they have no start or end.
Could the complex plane be used to describe Vector? Is scalar using the real number line?
Do scalar volumes use the vector field for direction (velocity, acceleration, momentum, path)? Is physical matter considered scalar volumes? Could uncertainty be from scalar volumes using vector?
Is the energy associated with light from vector momentum to scalar energy?
Is a Bose-Einstein condensate causing a physical scalar volume to become vector waves? Is absolute zero impossible because the vector field is responsible for movement?
Is the vector field why waves are waves? Is it all possible paths that cause interference patterns? Do Scalar Volumes limit the number of possible paths? Does measurement cause Vector Waves to be Scalar?
Consider what momentum from vector would do to a scalar volume. I think there is something extremely fundamental here. Is position from Scalar? Is momentum from Vector?
Isn't Uncertainty all about Position and Momentum?
Vector quantum waves can decohere/localize from something that is already scalar. Quantum information isn't lost to the environment, it is used by its scalar volume to become physical matter. Coherent lasers can avoid causing decoherence (scalar volumes) because it is vector/virtual. This is why they are used in a Bose-Einstein condensate.
Vector/Virtual Light Waves can only be as physical as the energy it becomes as scalar. If it doesn't have mass, does that mean a scalar volume doesn't form?
Particles in superposition are not physical. If they were their weight would multiply from being in all possible paths.
Mass must be involved in the physical structure/volume of particles.
A vector and a vector quantity are two different things. A vector field is filled with vectors. A wave is defined by the number of vectors it used in the field. A non-local wave uses a lot more from all possible paths. The position might be considered vector, but the measured particle is Scalar.
The weird thing about electrons is that they are never point particles while in electron shells. They are forced to be a wave because they have no start or end.
Could the complex plane be used to describe Vector? Is scalar using the real number line?