“To compare, LW contains a few discussions on many-worlds hypothesis versus collapse hypothesis, but those two are mathematically equivalent. In other case, an experiment could be done that decides between them, and someone would probably have done it decades ago.”
Math can, and in the case of QM, must use infinities and 0-dimensional particles which can not exist in reality.
One can describe Hilbert’s Hotel with infinite rooms, but construction of one is impossible. One can mathematically divide in half infinitely, but can not walk halfway to a wall forever. Math can do many things that reality can not.
Math can, and in the case of QM, must use infinities and 0-dimensional particles which can not exist in reality.
I’m a little confused by this objection to say the least. Could you express your views on the following topics in mathematics, particularly when they are used for real world applications, whether it be physics, computer science or engineering?
The use of the “null vector” in linear algebra
Limits approaching 0 in calculus
Generalizing the rules of 3 dimensional space to represent 4 dimensional space
Complex numbers and their various applications, particularly if you think we shouldn’t use the square root of negative one if it has no identifiable physical properties
“To compare, LW contains a few discussions on many-worlds hypothesis versus collapse hypothesis, but those two are mathematically equivalent. In other case, an experiment could be done that decides between them, and someone would probably have done it decades ago.”
Math can, and in the case of QM, must use infinities and 0-dimensional particles which can not exist in reality.
One can describe Hilbert’s Hotel with infinite rooms, but construction of one is impossible. One can mathematically divide in half infinitely, but can not walk halfway to a wall forever. Math can do many things that reality can not.
I’m a little confused by this objection to say the least. Could you express your views on the following topics in mathematics, particularly when they are used for real world applications, whether it be physics, computer science or engineering?
The use of the “null vector” in linear algebra
Limits approaching 0 in calculus
Generalizing the rules of 3 dimensional space to represent 4 dimensional space
Complex numbers and their various applications, particularly if you think we shouldn’t use the square root of negative one if it has no identifiable physical properties
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