Is it true?

Tim Ranker

Actually, hot water will freeze a bit faster than cold water when both are placed in very cold temperatures due to the lattice structure of water when it is frozen. When water freezes, the water(ice) expands due to the molecules forming a cubic lattice structure. The molecules are farther apart when water is frozen versus when it is a cool liquid. Obviously, when the water is warm, the molecules are farther apart than when the water is cold. Therefore, when water is hot and it molecules are father apart, it is easier for the water to create the cubic lattice structure when being frozen, versus cold water. Note: This isn't true for all possible water temps, only for the temps where the molecule expansion is similiar to the molecular distance between molecules of ice. Kind regards, Tim

Tim Ranker

He forgot to mention that his values are correct assuming the barometric pressure is 1 atmosphere. :) Kind regards, Tim

bryce

****Matt Newman wrote: I know for a fact that hot water freezes faster than cold water yer thats because as the water is cooling the hot water is losing mass due to evaporation bryce BSc Physics, MSc Physics (medical) and computers stuff too

Liam OHagan

I've heard that "old wives tale" before but in a different way, which makes it more understandable.... I think what your mother is saying is not quite correct though... This is how it goes: If you have a cup of hot coffee (or other beverage, coffee is just an example here :)) and you want to pour some cold milk into it (or other mixer) and the phone rings. You don't want your coffee to get cold, so do you a) Pour the milk in before the phone call, or b) after the phone call. The answer is a) This is because, when you pour the milk in, it immediately lowers the temperature of the coffee, if left to sit there, he coffee temperature will drop exponentially (as a function of the difference between the coffee temp and the surrounding air) So assume that the milk will instantly lower the temp by 20 degrees, if you put it in straight away, the coffee is 20 degrees cooler and will cool during the phone call at a rate proportional to the cooler temperature. If you leave the coffee sitting there, it will cool at a faster rate due to the higher temperature difference, and then when you put the milk in, it lowers it another 20 desgrees, which will therefore be cooler than the coffee with the milk poured in beforethe phone call.... That's probably too long winded and hard to follow, and it's over simplified, but I think it can be applied in the reverse manner, hot milk added to cold coffee... But I failed thermal physics the first time round, so don't listen to me :);)

ColinDavies

Well explained Tim, I didn't want to get to technical here in the lounge, but I think most people have never heard of the Mpemba effect and stuff like that. Water is not a good typical liquid to use for any reference to what a liquid is, as it has so many known anomalies. Its amazing how much research has gone into this one little field and there are still questions to be answered about waters properties. Regardz Colin J Davies

Sonork ID 100.9197:Colin

More about me :-)

ColinDavies

Ok, :-) Here is another factor check how waters viscosity changes with temperature, it is by no means uniform and has a spurt at around 30+ C, I don't think any successful explanation for this has ever been put forward. (must remeber the pressure of course) Something else that alters the equations with water is the non-compressability it almost has. When you heat it the air will expand and the water will almost remain the same. BTW: There are more solid states of Ice than there are carbon, (Its just they all look the same to casual observation) Regardz Colin J Davies

Sonork ID 100.9197:Colin

More about me :-)

John Carson

If you start with hot water and apply the freezing process, then you get cold water on the way to getting ice. Thus the time taken for hot to ice equals time of hot to cold plus time of cold to ice. The only possible way that freezing hot water could take less time than freezing cold water is if the cold to ice step takes less time if the water was previously hot, i.e., the characteristics of water depend on its history rather than just on its current temperature. I don't know enough physics to comment confidently on this, but I doubt it. John Carson

ColinDavies

I don't wanna get to scientific about it, unless you force me. :-) But as Matt said in a thread above its a bit like momentum. Please remember cold water has air inside it as well. One common result of this is cooking with microwaves, after you take the food out of the microwave it continues to cook. Check a microwave cookbook about this if you want. :-) Regardz Colin J Davies

Sonork ID 100.9197:Colin

More about me :-)

John Carson

Colin Davies wrote: Please remember cold water has air inside it as well. But does it have a different amount if it used to be hot? If not, then the hot to ice transition includes a cold to ice transition that is identical to the cold to ice transition that you get if you start with cold water. Colin Davies wrote: One common result of this is cooking with microwaves, after you take the food out of the microwave it continues to cook. That is because it is still hot, not because it is getting hotter. John Carson

Jack Handy

****Colin Davies wrote: BTW: boiling water looses its oxygen so when you freeze it, its more solid and clear with less bubbles etc. Yes and this is also a very good way to get back at a glass container that you are mad at. -Jack To an optimist the glass is half full. To a pessimist the glass is half empty. To a programmer the glass is twice as big as it needs to be.

ColinDavies

I think we'll only be able to disagree, And I agree that this does not make common sense, nor is it simple logic unfortunatly. Still many of the physical properties of water are not understood by science, which means my argument will dry up somewhere, as I won't be able to explain it, however experimental evidence can prove the assertion. Regardz Colin J Davies

Sonork ID 100.9197:Colin

More about me :-)

John Carson

I did a quick Google search. Apparently, there are ways in which cold water that used to be hot can differ from water that has been cold from the start. The most important is that more of the water that used to be hot will have evaporated. Thus a smaller volume needs to be frozen (assuming that, in comparing hot to ice and cold to ice, we start with the same initial volume of hot and cold water). Whether a given initial volume of hot water will actually freeze more quickly than a given initial volume of cold water depends on the temperature differences and various other details. It is not a universal result either way. John Carson

Roger Wright

Only in a closed system at STP.

ColinDavies

Amazing how such simple stuff can cause this confusion. Here is a link I just posted in the soapbox http://www.sbu.ac.uk/water/explan.html We must be wary also that information that we find on the web is well founded. :-) Best wishes ! Regardz Colin J Davies

Sonork ID 100.9197:Colin

More about me :-)

benjymous

One thing bothers me about this: You don't cook with water from the hot tap do you? Arrgh! If you can't see anything wrong with this, then consider that in most houses (unless they have some kind of instant wanter heater) that your hot water will be sat around in some kind of storage tank somewhere in your house, whereas the cold water will come directly from the pipes. My Dad's an architect, and he's told me that it's fairly common to find dead pigeons/rats/etc floating in hot water tanks. X| So I'd rather wait the extra minute for the water to boil (assuming it is faster to boil water from the hot tap) -- Help me! I'm turning into a grapefruit!

Rutger Ellen

I suppose you mean those water tanks that are heated by the sun because here we have closed boilers, and I can understand a rat getting into them (not really probable but ok) but a pigeon, These things are made of steel, use electricity for heating so the only way in or out is trough a 1.5 cm wide tube. btw most of the modern Dutch houses (as mine) come with an instant water heater that also doubles as a central heating system If you would let the water boil propperly it should do you no harm. I would me more afraid of the legionairs disease from not properly heated water in a hot water tank, problem is that this bacteria gets you through your lungs, so taking a shower from such a tank is far more dangerous than drinking a cup of (propperly boiled) tea from it. (the tea colour will also hide the brounish rat color :) )

Tim Smith

Freezing and Boiling Tim Smith I know what you're thinking punk, you're thinking did he spell check this document? Well, to tell you the truth I kinda forgot myself in all this excitement. But being this here's CodeProject, the most powerful forums in the world and would blow your head clean off, you've got to ask yourself one question, Do I feel lucky? Well do ya punk?

Ravi Bhavnani

I don't think that's true. The heat energy required to bring water to boiling is proportional to the temperature difference, so more energy is required to bring cold water to boiling than hot water. The exact amount of heat energy required is:

E = m*s*t + m*L

where m = mass of water s = specific heat (1.0 cal/gm for pure water at sea level) t = temperature difference L = latent heat of vaporization (512 cal/gm I think) /ravi "There is always one more bug..." http://www.ravib.com ravib@ravib.com

Kevnar

If you throw cold water on a sleeping woman will she boil faster than if you throw warm water on her? :eek: :mad: X| Why not throw away a dime? I throw away ten pennies all the time.

Kevnar

Here's another question: You have equal amounts of water in do different pots placed over elements of the same temperature, but different sizes. One pot is tall and narrow, with say 5L of water in it, and the other is wide and shallow. Which one will boil sooner, or will it be the same? :~ Don't forget to show your work... Why not throw away a dime? I throw away ten pennies all the time.