I think that’s what the guy kneeling down at the 27,9 C measurement is doing, recording the temperature of that spot.
My doubt does come in though with the street measurement. The asphalt is cooler than the sidewalk? What? Also, did he go out into the street to take the measurement and then run back? I guess if there were no cars around he could have, but that doesn’t seem like a low-traffic area. Just a few weird things about that one detail.
Asphalt has less heat retention capability than sidewalk bricks. The asphalt is venting more of its heat into the surroundings than the bricks are, which is why it’s cooler.
There’s also very little traffic on his side of the street – you’ll notice there are almost no cars on that side, so it’s more than likely he had ample time to get a temperature read on the asphalt before a car came along
Concrete surface in contact with direct noon sunlight is always gonna be scorching hot, 50°C is not far fetched. On a super hot day you can cook an egg on concrete. These surface also tend to heat up slow but also lose heat slowly, which is why even after a couple of hour after sun down it will still feel warm to the touch, creating what is known as urban heat trap.
Dr. Hannah Fry made a short video about this recently – this kind of heat retention is why London Underground stations are so bloody hot, because the clay tiles lining the underground tunnels have absorbed heat from trains braking day in and day out and are constantly releasing excess heat into the air at the stations
Wait, are theses actual measurements? Or made-up numbers?
In really hot and sunny weather, you can absolutely get serious burns from concrete heating up.
I think that’s what the guy kneeling down at the 27,9 C measurement is doing, recording the temperature of that spot.
My doubt does come in though with the street measurement. The asphalt is cooler than the sidewalk? What? Also, did he go out into the street to take the measurement and then run back? I guess if there were no cars around he could have, but that doesn’t seem like a low-traffic area. Just a few weird things about that one detail.
Asphalt has less heat retention capability than sidewalk bricks. The asphalt is venting more of its heat into the surroundings than the bricks are, which is why it’s cooler.
There’s also very little traffic on his side of the street – you’ll notice there are almost no cars on that side, so it’s more than likely he had ample time to get a temperature read on the asphalt before a car came along
Given that i have kitchen tools that could do this; yes i expect theyre real.
Concrete surface in contact with direct noon sunlight is always gonna be scorching hot, 50°C is not far fetched. On a super hot day you can cook an egg on concrete. These surface also tend to heat up slow but also lose heat slowly, which is why even after a couple of hour after sun down it will still feel warm to the touch, creating what is known as urban heat trap.
Dr. Hannah Fry made a short video about this recently – this kind of heat retention is why London Underground stations are so bloody hot, because the clay tiles lining the underground tunnels have absorbed heat from trains braking day in and day out and are constantly releasing excess heat into the air at the stations
Interesting. So adding regenerative breaking to the trains would actually reduce the heat.
Concrete and dark-colored metal surfaces can absolutely reach those temperatures after a few hours of direct sunlight
The photo seems to suggest he is measuring surface temperatures, so I assume they are real. Doesn’t seem that far fetched.