Its pretty easy to do.I have, many times, in doing things like preparing bath water for babies. You cannot pour hot water into cold water gently enough to prevent mixing.
Its pretty easy to do.I have, many times, in doing things like preparing bath water for babies. You cannot pour hot water into cold water gently enough to prevent mixing.
Yuuuup. Cold water is denser than the hot. We did this in elementary school. Hot on cold will layer but cold on hot will mix as the heavier cold water sinks.Try it yourself. At the start, the hot water will be above the cold water, then after a while they may mix.
So if you want to have a warm water, don't pour the hot water on the cold water: if you pour the hot water on the cold water, it will not mix immediately, because the hot tends to be above, and the cold tends to be below.
But pour the cold water on the hot water: the cold water will go down and will immediately mix to give you a warm water.
Really? Well, I stand corrected, though I’ve never seen it done, or been able to do it myself. Regardless, it’s not because gravity is affected by temperature. You I’m inclined to believe, Torch light I am not, he’s so wrong about so much else, and when he *is* right it’s for the wrong reasons.Yuuuup. Cold water is denser than the hot. We did this in elementary school. Hot on cold will layer but cold on hot will mix as the heavier cold water sinks.
It is gravity since denser cold water has more mass but not temperature impacting the constant of gravity.Really? Well, I stand corrected, though I’ve never seen it done, or been able to do it myself. Regardless, it’s not because gravity is affected by temperature. You I’m inclined to believe, Torch light I am not, he’s so wrong about so much else, and when he *is* right it’s for the wrong reasons.
Its like pouring liquers in layers to make shooters. Its in the methodology. If a glass is at an angle the side temporarily becomes the bottom and cold will slip under the hot. Dumping is too aggressive.Interesting demo, thanks for that. I note, however, that he didn’t pour one container of water into the other. I’d predict that doing that would cause them to mix fairly quickly because the hot water would enter the cold water with a downward velocity. I’ll have to try it and see what happens.
Yep. And, of course, water is an excellent conductor of heat, so as the temperatures of the two layers of water equalize, they'll mix. It, like Torchy, is a simple matter of density.Really? Well, I stand corrected, though I’ve never seen it done, or been able to do it myself. Regardless, it’s not because gravity is affected by temperature. You I’m inclined to believe, Torch light I am not, he’s so wrong about so much else, and when he *is* right it’s for the wrong reasons.
Did I say this?I’m sure you’re right. My original contention was that if you just pour hot water into cold water they’ll mix, and the demo shows careful precautions are necessary to ensure they don’t. Dumping creates the turbulence that’ll mix them. Torch light seemed to be arguing that they won’t mix under any circumstances, which I’m sure is wrong.
This is wrong. Water in fact is not a good conductor of heat.Yep. And, of course, water is an excellent conductor of heat, so as the temperatures of the two layers of water equalize, they'll mix. It, like Torchy, is a simple matter of density.
Yeah, and the earth is getting closer to the sun. Fuckwit.This is wrong. Water in fact is not a good conductor of heat.
True: the earth has become nearer to the sun by a short distance.the earth is getting closer to the sun.
Yes you did. I've just run the experiment, trying to pour hot water on top of cold water without using the card as shown in the demo, just dribbling the hot into the cold, and trying to let it trickle as gently as I could down the side of the glass. They do not stratify, they mix immediately.Did I say this?
Even if you stir the glass of water they will no mix immediately, but if the hot water on the top of the cold water in a sealed bottle, and then you turn the bottle upside down, they will mix instantly.
The earth becomes nearer and farther from the sun by about 3 million miles every year as it goes around its elliptical orbit. The claims at that link are nonsense, direct observation confirms that smaller colder planets are not nearer to the sun. Mars is smaller and colder than earth and is farther way, Saturn, Uranus, and Neptune are all smaller and colder than Jupiter and they're farther away than Jupiter.True: the earth has become nearer to the sun by a short distance.
why the planet is near or far from the sun
You reiterate what most of astronomers say, while the interpreter gives the correction of these data, and his explanation is logical.The earth becomes nearer and farther from the sun by about 3 million miles every year as it goes around its elliptical orbit. The claims at that link are nonsense, direct observation confirms that smaller colder planets are not nearer to the sun. Mars is smaller and colder than earth and is farther way, Saturn, Uranus, and Neptune are all smaller and colder than Jupiter and they're farther away than Jupiter.
This explains much about your insisting on your words.Yes you did. I've just run the experiment, trying to pour hot water on top of cold water without using the card as shown in the demo, just dribbling the hot into the cold, and trying to let it trickle as gently as I could down the side of the glass. They do not stratify, they mix immediately.
I reiterate what *all* astronomers say. You can be perfectly logical—though Al-Hilly is not—and still be wrong if you reason from false information.You reiterate what most of astronomers say, while the interpreter gives the correction of these data, and his explanation is logical.