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Science is not about finding absolute truths, but about constantly pushing the boundaries of our understanding.
The boundary between the quantum world and our everyday experience is not as sharp as we once thought.
Entanglement is the essence of quantum mechanics. It connects particles in ways that defy our classical intuition.
In the quantum world, observing something changes it. This is not a limitation of our technology, but a fundamental property of nature.
The universe is not only stranger than we imagine, it is stranger than we can imagine.
To understand the quantum world, we must first unlearn our classical intuitions.
Every experiment is a conversation with nature, and sometimes nature whispers its secrets.
The beauty of science lies in its ability to surprise us.
The universe is not only stranger than we imagine, it is stranger than we can imagine.
The lesson of quantum mechanics is that we must revise our classical notions of reality.
The violation of Bell's inequalities forces us to reject either locality or realism - or both.
The quantum world appears to us as a web of relations rather than a collection of objects.
We must accept that quantum objects do not possess properties independent of measurement.
In quantum mechanics, we have to abandon the idea that particles have definite properties before measurement.
The universe is not only stranger than we imagine, it is stranger than we can imagine.
Nature speaks to us through patterns, even when those patterns are hidden beneath apparent randomness.
In physics, we often find that the most beautiful solutions emerge from the messiest problems.
The study of complex systems has taught us that simple rules can give rise to incredibly complex behavior.
The real question is not whether climate is changing, but how fast and how much we can adapt.
What we do today will determine the climate for centuries to come.