While classical physics and quantum mechanics have fundamental differences, it is not fair to say that classical theory is equally weird as quantum theory. Classical theory, which encompasses the laws of Newtonian mechanics, electromagnetism, and thermodynamics, provides a well-established framework for understanding the behavior of objects and phenomena at the macroscopic level.

Quantum theory, on the other hand, deals with the realm of the very small, such as atoms and subatomic particles, where counterintuitive and probabilistic phenomena emerge. Quantum mechanics introduces concepts like superposition, entanglement, and wave-particle duality, which may appear strange and challenging to comprehend.

However, it is important to note that the weirdness of quantum theory arises from its ability to accurately describe the behavior of matter and energy at the quantum level. These quantum phenomena have been extensively tested and confirmed through countless experiments, despite our intuitive difficulties in grasping them.

Classical physics, while not exhibiting the same level of strangeness as quantum theory, still presents its own set of complexities. Classical concepts like chaos theory and nonlinear dynamics can lead to intricate and unpredictable behaviors in certain systems, such as weather patterns or population dynamics.

Therefore, while quantum theory may be considered "weird" due to its counterintuitive nature, classical theory is not necessarily equally weird. Each theory describes different domains of physics and has its own intricacies that challenge our understanding of the universe.