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Quantum mechanics is an incredibly successful and well-tested theory that has been confirmed by numerous experiments. However, like any scientific theory, it is always subject to further investigation and potential refinement. While no fundamental predictions of quantum mechanics have been experimentally confirmed as false, there are certain areas where the theory is not yet complete or where its interpretation is still a subject of debate. Here are a few examples:

  1. Hidden Variables: One of the key debates in the interpretation of quantum mechanics is whether there are hidden variables that determine the outcomes of quantum measurements. Certain interpretations, such as the Copenhagen interpretation, suggest that quantum measurements are inherently probabilistic and do not have underlying hidden variables. While experiments have generally supported the probabilistic nature of quantum measurements, the question of hidden variables and their existence is still a topic of ongoing research and discussion.

  2. Measurement Problem: The measurement problem refers to the question of how a quantum system collapses into a definite state upon measurement. The standard interpretation of quantum mechanics states that a measurement causes the wavefunction to collapse into a specific state, but the precise mechanism behind this collapse is not fully understood. Various interpretations, such as the Many-Worlds interpretation and the consistent histories approach, propose different explanations or ways of understanding the measurement process. However, none of these interpretations have been definitively confirmed or disproven by experiments.

  3. Quantum Gravity: Quantum mechanics and general relativity are two highly successful theories in their respective domains, but they are not yet fully reconciled into a single unified theory. The search for a theory of quantum gravity is an active area of research. While various approaches, such as string theory and loop quantum gravity, provide potential frameworks for unifying quantum mechanics and gravity, experimental confirmation of these theories is still elusive.

It's important to note that while certain aspects of quantum mechanics are still subject to debate and ongoing research, the core principles and predictions of quantum mechanics have been extensively confirmed by experiments and are widely regarded as accurate.

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