How does relativity contradict quantum mechanics?
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How does relativity contradict quantum mechanics?
In general relativity, events are continuous and deterministic, meaning that every cause matches up to a specific, local effect. In quantum mechanics, events produced by the interaction of subatomic particles happen in jumps (yes, quantum leaps), with probabilistic rather than definite outcomes.
Is Theory of relativity quantum?
Relativity is “built into” the theory, so to speak. And it’s the only quantum theory that is fully causal (effect never precedes cause, for any observer) and can account for particle creation and annihilation. When I say fully relativistic, I mean special relativity.
Where does General Relativity contradict quantum mechanics?
In theoretical physics, the problem of time is a conceptual conflict between general relativity and quantum mechanics in that quantum mechanics regards the flow of time as universal and absolute, whereas general relativity regards the flow of time as malleable and relative.
How accurate is quantum mechanics compared to relativity?
Physicist: Quantum Mechanics (QM) and relativity are both 100\% accurate, so far as we have been able to measure (and our measurements are really, really good). The incompatibility shows up when both QM effects and relativistic effects are large enough to be detected and then disagree.
Are quantum mechanics and special theory of relativity incompatible?
No these theories are not incompatible. In fact quantum mechanics was first integrated with special theory of relativity by Dirac in 1928 just 3 years after quantum mechanics was discovered. Dirac produced an equation that describes the behavior of a quantum particle (electron).
Can string theory reconcile general relativity with quantum mechanics?
Since the late 1960s, a group of physicists and mathematicians have been developing a framework called string theory to help reconcile general relativity with quantum mechanics; over the years, it has evolved into the default mainstream theory, even as it has failed to deliver on much of its early promise.
Can general relativity make peace with quantum physics?
Or put another way, general relativity would be forced to make peace with quantum physics, because the space in which physicists measure the effects of relativity would itself be divided into unbreakable quantum units. The theatre of reality in which gravity acts would take place on a quantum stage.