Adding to the summary line “First, warm your planet by 1 degree C.” we also need to “which causes more water to evaporate into the air”.
BTW, many people have not been acquainted with “fluid dynamics” where atmospheric air is just one kind of fluid while liquid water is another. So somewhere between “dry air” and “super saturated air” we have a sliding scale of fluid density. It goes without saying that more dense air contains more mass which means that storms will cause more damage to buildings and infrastructure.
It won’t be long before these are the good old days. Won’t be a thousand years before the next event.
Adding to the summary line “First, warm your planet by 1 degree C.” we also need to “which causes more water to evaporate into the air”.
BTW, many people have not been acquainted with “fluid dynamics” where atmospheric air is just one kind of fluid while liquid water is another. So somewhere between “dry air” and “super saturated air” we have a sliding scale of fluid density. It goes without saying that more dense air contains more mass which means that storms will cause more damage to buildings and infrastructure.