I do think that using the phase changes of water as the sole point of comparison is a bad argument.
Why? Water is extremely important to life and very abundant. The phases changes of water are something that you are confronted with in every day life, all the time.
For most people, the interaction with temperature is through the weather, and I don’t think Celsius is inherently better for that.
I do, because the temperature being above or below freezing is a very important boundary. Freezing temperatures means slippery roads, frost on windows, car locks freezing shut, etc. A lot of our interaction with the world outside is affected by the temperature being below or above 0ºC. By comparison, 0ºF is completely arbitrary, nothing changes when you cross that boundary.
I like that in Fahrenheit 0 is a cold winter’s day, and 100 is a hot summer’s day.
10ºF is also a cold day, so is 20ºF and 30ºF. Just like 90ºF is also a hot summers day.
I find that more relevant in day-to-day life than the phase changes of water.
None of those seem relevant to me. I don’t need a round number to know that 37ºC is a hot day. There is no significance to 100ºF. 99ºF is also a hot day and so is 101ºF. Nothing interesting happens when you cross the 100ºF threshold.
When you cross the 0ºC or 100ºC, potentially dangerous things start to happen of which you need to be aware.
Right. You learn two numbers for the phase changes of water, and we do as well. It’s easy to remember two numbers and understand when you’ve crossed a boundary. Sure, learning 0 and 100 might be easier than 32 and 212, but I don’t think that understanding whether a number is smaller or larger than 32 is really harder than understanding if it’s smaller or larger than 0. Both are pretty much instantaneous recognitions for a numerically literate person.
My point was merely that the Fahrenheit defines these two points in such a way that the ambient temperatures that we experience generally fall nicely within the range of 0 to 100, and I don’t think that this fact is any less compelling an argument than having nicer numbers for the boundaries of liquid water. I’m not saying that Celsius is bad. I’m just saying that the range of liquid water is not a convincing enough argument for me.
For other units of measures, the ease of converting units in metric is a clear win over imperial (or US customary). For temperature, there are benefits to both scales, and neither has as compelling an argument as we see in the meter vs the yard or the kilogram vs the pound. The only really convincing argument for me is that the rest of the world uses Celsius, and I think that is a good enough argument.
“Freezing temperatures” mean “freezing temperatures,” though, and numbers are pretty irrelevant. American schoolkids learn that it’s around 32°F and 0°C, and we easily remember it, but the weather forecasters still say “frost warning,” or “freezing rain,” rather than “it’s going to be 32°F tomorrow,” because there are so many confounding variables. Even the temperature of the phase transition is kind of squishy, since pure water freezes at 0°C at STP (except when it gets super-cooled). And if we’re talking about the fundamental importance of water, then I might argue that 4°C is the important temperature, because it’s temperature at which water reaches its maximum density.
Anyway, not to say that Fahrenheit is great, or anything, just that Celsius is similarly arbitrary, and we lack a compelling reason to switch. (Even though virtually every thermometer I’ve ever seen in the U.S. has both scales on it.)
Why? Water is extremely important to life and very abundant. The phases changes of water are something that you are confronted with in every day life, all the time.
I do, because the temperature being above or below freezing is a very important boundary. Freezing temperatures means slippery roads, frost on windows, car locks freezing shut, etc. A lot of our interaction with the world outside is affected by the temperature being below or above 0ºC. By comparison, 0ºF is completely arbitrary, nothing changes when you cross that boundary.
10ºF is also a cold day, so is 20ºF and 30ºF. Just like 90ºF is also a hot summers day.
None of those seem relevant to me. I don’t need a round number to know that 37ºC is a hot day. There is no significance to 100ºF. 99ºF is also a hot day and so is 101ºF. Nothing interesting happens when you cross the 100ºF threshold.
When you cross the 0ºC or 100ºC, potentially dangerous things start to happen of which you need to be aware.
Right. You learn two numbers for the phase changes of water, and we do as well. It’s easy to remember two numbers and understand when you’ve crossed a boundary. Sure, learning 0 and 100 might be easier than 32 and 212, but I don’t think that understanding whether a number is smaller or larger than 32 is really harder than understanding if it’s smaller or larger than 0. Both are pretty much instantaneous recognitions for a numerically literate person.
My point was merely that the Fahrenheit defines these two points in such a way that the ambient temperatures that we experience generally fall nicely within the range of 0 to 100, and I don’t think that this fact is any less compelling an argument than having nicer numbers for the boundaries of liquid water. I’m not saying that Celsius is bad. I’m just saying that the range of liquid water is not a convincing enough argument for me.
For other units of measures, the ease of converting units in metric is a clear win over imperial (or US customary). For temperature, there are benefits to both scales, and neither has as compelling an argument as we see in the meter vs the yard or the kilogram vs the pound. The only really convincing argument for me is that the rest of the world uses Celsius, and I think that is a good enough argument.
“Freezing temperatures” mean “freezing temperatures,” though, and numbers are pretty irrelevant. American schoolkids learn that it’s around 32°F and 0°C, and we easily remember it, but the weather forecasters still say “frost warning,” or “freezing rain,” rather than “it’s going to be 32°F tomorrow,” because there are so many confounding variables. Even the temperature of the phase transition is kind of squishy, since pure water freezes at 0°C at S
TP (except when it gets super-cooled). And if we’re talking about the fundamental importance of water, then I might argue that 4°C is the important temperature, because it’s temperature at which water reaches its maximum density.Anyway, not to say that Fahrenheit is great, or anything, just that Celsius is similarly arbitrary, and we lack a compelling reason to switch. (Even though virtually every thermometer I’ve ever seen in the U.S. has both scales on it.)
Well, there is a significance to 100f, it’s the human body temperature. Hotter days = potential danger maybe?Either way, it’s another base 10, not 12!
Edit: ignore me, my memory is terrible.
Human body temperature is 98.6f
I seem to remember they didn’t get it quite right by modern standards.
Edit: ok, I remembered wrongly. 96 was as close as they could measure human body temperature. I always thought it was the other way.
I’m still not clear on why 100f was chosen.