Quantum mechanics allows for precise values of position and momentum simultaneously.

Quantum mechanics does not involve waves.

Classical mechanics is probabilistic, while quantum mechanics is deterministic.

Classical mechanics allows for precise values of position and momentum simultaneously.

We can also know its precise momentum.

The electron's wave nature is eliminated.

The electron's position becomes more uncertain.

The electron's momentum becomes uncertain.

The more precisely one is known, the less precise the other becomes.

They are independent of each other.

Both variables can be known precisely at the same time.

They are always uncertain.

It eliminates the system's wave nature.

It alters the state of the system.

It makes the system deterministic.

It has no impact on the system.

Nature is deterministic at all levels.

Nature is probabilistic at the most fundamental level.

Quantum mechanics supports classical determinism.

Observation has no impact on reality.

A definite state of being alive or dead.

A superposition of being both alive and dead.

A deterministic outcome based on observation.

An independent state unaffected by quantum mechanics.

To support the Copenhagen interpretation.

To discredit the Copenhagen interpretation.

To demonstrate the certainty of quantum states.

To prove the determinism of quantum mechanics.