Please note that you defined "climate" in terms of "weather", and "weather" in terms of "climate".
"in terms of temperature, rainfall, winds, storms"
Temperature and precipitation can be measured. Windspeed can also be measured. One can't really measure a storm, but one can measure how violent the storm is, roughly speaking. If you discretize physical space and assign values of temperature, pressume, etc to each cell in the grid, and you log them over a certain period of time, then you obtain a microscopic description of the "weather".
The laws of fluid dynamics and heat transfer define the dynamics of the system. Knowing the inputs, we obtain a trajectory in a very high-dimensional state-space. This is too much information for humans to digest. Hence, the order of the model is greatly reduced, and instead of microscopic description, we have a macroscopic description which we call the "weather". After all, we need to know if it's gonna rain or how cold it will be, we don't need to know the temperature and pressure at every single point in space, nor do we need to know how fast each droptlet of rain is falling.
I agree with you. In my view, the dynamics are the same, and the "climate change" people talk means that the trajectories in state-space are approaching regions they usually don't go to. But since trajectories are inherently dynamic, I think the word "change" is weak. That is why I proposed the word "crisis".
The dictionary definition of climate was in terms of weather. My own definition of climate which followed was explicitly written to get rid of the mention of weather. I then defined weather myself, in terms of climate.
I didn’t enter the argument of change vs. crisis in my post, though I do think crisis makes more sense.
"in terms of temperature, rainfall, winds, storms"
Temperature and precipitation can be measured. Windspeed can also be measured. One can't really measure a storm, but one can measure how violent the storm is, roughly speaking. If you discretize physical space and assign values of temperature, pressume, etc to each cell in the grid, and you log them over a certain period of time, then you obtain a microscopic description of the "weather".
The laws of fluid dynamics and heat transfer define the dynamics of the system. Knowing the inputs, we obtain a trajectory in a very high-dimensional state-space. This is too much information for humans to digest. Hence, the order of the model is greatly reduced, and instead of microscopic description, we have a macroscopic description which we call the "weather". After all, we need to know if it's gonna rain or how cold it will be, we don't need to know the temperature and pressure at every single point in space, nor do we need to know how fast each droptlet of rain is falling.
I agree with you. In my view, the dynamics are the same, and the "climate change" people talk means that the trajectories in state-space are approaching regions they usually don't go to. But since trajectories are inherently dynamic, I think the word "change" is weak. That is why I proposed the word "crisis".