It's not entirely accurate to say that "equation" caused confusion among physicists. It's more specific to say that certain types of equations or the use of equations in certain ways caused confusion.

Here are some examples:

* Equations that describe phenomena at very small scales: Quantum mechanics, for example, uses equations that describe the behavior of particles at the atomic and subatomic level. These equations often have counterintuitive and bizarre implications, challenging our classical understanding of the world.

* Equations with multiple interpretations: Einstein's famous equation E=mc² can be interpreted in multiple ways, leading to different understandings of the relationship between energy and mass. This can cause confusion, especially when trying to apply the equation to specific scenarios.

* Equations that seem to contradict each other: There are instances where different equations seem to give conflicting results, especially when trying to reconcile quantum mechanics with general relativity. This has led to ongoing debates and attempts to develop a "theory of everything" that can unify these seemingly contradictory descriptions of the universe.

It's important to note that confusion is a natural part of scientific progress. New theories and equations often challenge existing ideas and force scientists to rethink their understanding of the world. This confusion ultimately leads to new insights and a deeper understanding of the universe.

So, while equations are powerful tools that help us understand the world, it's the interpretation of these equations and their application to specific situations that can sometimes cause confusion.