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Since we generally agreed the other poll was too extreme on the cold side and did Not give an idea of how much people enjoy cold/heat, here’s one with the cold end just above freezing. Would you rather spend a full day running errands when the temperature is…
3° C (~37° F)
30° C (~86° F)
bald/results
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Coldest temperature you've ever experienced?
>0 °C (32 F)
0 to -10 °C (32-14 F)
-10 to -20 °C (14 to -4 F)
-20 to -30 °C (-4 to -22 F)
-30 to -40 °C (-22 to -40 F)
-40 to -50 °C (-40 to - 58 F)
-50 to -60 °C (-58 to -76 F)
< -60 °C (< -76 F)
At approximately what outside temperature does it become too hot for you?
15ºC (59ºF) is too hot for me, or a temperature even lower than this is too hot
20ºC (68ºF)
25ºC (77ºF)
30ºC (86ºF)
35ºC (95ºF)
40ºC (104ºF)
45ºC (113ºF)
It can never be too hot for me
We ask your questions so you don’t have to! Submit your questions to have them posted anonymously as polls.
In my new scale, °X, 0 is Earths' record lowest surface temperature, 50 is the global average, and 100 is the record highest, with a linear scale between each point and adjustment every year as needed.
Temperature Scales [Explained]
Transcript Under the Cut
Where this winter was warmer (yellow/orange) or colder (green) than usual
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People who have regular body heat don't experience cold the way we do. They apparently have this little heater inside of them that just, keeps their blood and internal organs comfy all the time. Being "cold" to them is just a chill on their skin. "If you're still cold after the first layer, put another layer on!" That doesn't work if you don't have the body heat to warm up those layers!!! it's just cold fabric on top of cold fabric on top of cold fabric on top of cold skin on top of cold fat on top of cold muscle on top of cold bones.
Then of course, even if there are FINALLY enough layers to make our skin warm. That does not mean it will make our bones warm. I could have an electronically heated blanket on me, and start sweating from it, and STILL BE COLD because it takes a lot of time for any amount of heat to pierce the surface level of my body & warm me in any ways that matter. So yeah, anytime you're interacting with somebody who doesn't have temperature regulation issues, and they offhandedly mention that they love the cold, just be aware they are never ever talking about our kind of cold. the kind that feels like an uphill battle. They're talking about something completely different and unique to them and their little internal heater. something some of us may never experience because we're always trapped in that fight with the air around us.
A Tour of Cosmic Temperatures
We often think of space as “cold,” but its temperature can vary enormously depending on where you visit. If the difference between summer and winter on Earth feels extreme, imagine the range of temperatures between the coldest and hottest places in the universe — it’s trillions of degrees! So let’s take a tour of cosmic temperatures … from the coldest spots to the hottest temperatures yet achieved.
First, a little vocabulary: Astronomers use the Kelvin temperature scale, which is represented by the symbol K. Going up by 1 K is the same as going up 1°C, but the scale begins at 0 K, or -273°C, which is also called absolute zero. This is the temperature where the atoms in stuff stop moving. We’ll measure our temperatures in this tour in kelvins, but also convert them to make them more familiar!
We’ll start on the chilly end of the scale with our CAL (Cold Atom Lab) on the International Space Station, which can chill atoms to within one ten billionth of a degree above 0 K, just a fraction above absolute zero.
Credit: NASA's Goddard Space Flight Center/Scott Wiessinger
Scientists have finally pinned down the mechanism behind cold- and menthol-sensing proteins
What do the feeling of an ice cube against your skin and the cool minty blast of toothpaste have in common? Both activate our body’s cold-sensing nerves. But until now, scientists hadn’t pinned down exactly how that happened at the level of individual proteins in our cells. David Julius, a structural biologist at the University of California, San Francisco, shared the 2021 Nobel Prize in Physiology or Medicine for his discovery of a protein called TRPV1 that lets us feel the heat of chili peppers. Now, in a recent study published in Nature, he and his colleagues have taken a close look at a protein that let us feel the cool of menthol. Understanding this cold-sensing protein could one day lead to better therapies for cold hypersensitivity that often troubles people undergoing certain types of cancer chemotherapies. But the protein has been way trickier to handle than its heat-sensing cousin.
Continue Reading.
