I had an American explain “well you just know that 68 is long sleeve warm, 80 is shorts” or something, as if people cannot memorize that 18 is chilly and 21/22 is usual room temperature, 26 is shorts.
The only thing I dislike like about Celsius is that my thermostat supports both, but doesn’t allow half degrees Celsius, so it provides less granular control in Celsius than if you set it to Fahrenheit.
As you approach 0°F it is getting dangerously cold. As you approach 100°F it’s getting dangerously hot. Celsius is obviously better scientifically, but fahrenheit is pretty reasonable for everyday use (unlike other imperial measurements).
There are hardly any population centers that reach the lower temperature while there’s a shitton of them that reach the hotter one. That should say enough about how dangerous and inhospitable each is.
That’s not true. NYC frequently reaches 0°F and is home to 15 million people. All of northern US, and all of Canada frequently reach 0°F. It’s a fact than anything below 0°F is actively dangerous and anything above 100°F is actively dangerous.
Most metric units are designed around water in some way. Very easy to convert to different units because of this. 1mL of water is equal to 1g of water which is equal to 1 cubic cm of water, for example.
and it takes 1 calorie to heat 1g of water by 1°C, so with your daily recommended food intake of 2000kcal you could heat 2000l of water by 1°C or raise 20l of water from 0°C to 100°C.
Also a normal person can rides the bike between 0W and 100W comfortably, while trained people peak at around 1000W for short sprints.
It’s intuitive with respect to water. Applying it to anything else is exactly the same as the Fahrenheit scale: you associate various things with numbers.
C is even more intuitive than the graphic.
0 = water’s frozen 100 = water’s boiling
I had an American explain “well you just know that 68 is long sleeve warm, 80 is shorts” or something, as if people cannot memorize that 18 is chilly and 21/22 is usual room temperature, 26 is shorts.
The only thing I dislike like about Celsius is that my thermostat supports both, but doesn’t allow half degrees Celsius, so it provides less granular control in Celsius than if you set it to Fahrenheit.
I’m in Québec, -10 is chilly, 14 is shorts :)
I was about to say, in Denmark i definitely have shorts on in the teens, else I’d barely need to own any
Same in Alberta -10 maybe put on a jacket, 14 grab the beers and fire up the BBQ it’s patio time
https://www.youtube.com/watch?v=DvR6-SQzqO8
oui, toujours :)
As you approach 0°F it is getting dangerously cold. As you approach 100°F it’s getting dangerously hot. Celsius is obviously better scientifically, but fahrenheit is pretty reasonable for everyday use (unlike other imperial measurements).
0°F is way colder than 100°F is hot.
There are hardly any population centers that reach the lower temperature while there’s a shitton of them that reach the hotter one. That should say enough about how dangerous and inhospitable each is.
That’s not true. NYC frequently reaches 0°F and is home to 15 million people. All of northern US, and all of Canada frequently reach 0°F. It’s a fact than anything below 0°F is actively dangerous and anything above 100°F is actively dangerous.
Anything below 10°F is actively dangerous. Anything above 110°F is actively dangerous.
NYC barely ever reaches 0°F according to this site:
https://www.extremeweatherwatch.com/cities/new-york/lowest-temperatures-by-year
Seriously, NYC is closer to having regular 100°F weather than 0°F and it is in the Northern US!
In other terms: -18°C is extremely fucking cold, 38°C is just regular hot.
Really my point is you can memorize new numbers when you look at the weather report.
When I go (went ) to the US it was not obvious to me looking at the weather in Fahrenheit what it would feel like.
Of course. I’m just adding that there is some logic to fahrenheit in day to day use.
Yeah, you just remember 0/20/40 °C close enough to 30/70/100 °F is freezing/good/heat stroke.
Copium is real
Most metric units are designed around water in some way. Very easy to convert to different units because of this. 1mL of water is equal to 1g of water which is equal to 1 cubic cm of water, for example.
and it takes 1 calorie to heat 1g of water by 1°C, so with your daily recommended food intake of 2000kcal you could heat 2000l of water by 1°C or raise 20l of water from 0°C to 100°C.
Also a normal person can rides the bike between 0W and 100W comfortably, while trained people peak at around 1000W for short sprints.
And weight also revolves around water. 1L of water is 1KG which is 1000cm3 whereas 1cm3 is 1g. Super easy to calculate things.
Edit: correction
I once heard an American say something “weighs as much as a 2 liter bottle” and it made me raise an eyebrow.
*cm³
*at sea level, assuming pure water
It’s intuitive with respect to water. Applying it to anything else is exactly the same as the Fahrenheit scale: you associate various things with numbers.