Yes! Clean water can exist in liquid phase even if temperature is under 0 degrees of Celsius temperature scale. This phenomenon is called Liquid hypothermia I think.
If clean, distilled water is left to cool down below 0 degrees in a very calm environment, that is if it is not disturbed in any way, and if container in which this water is, is clean, and without a scratch (dust particles can gather on a scratch), than
this may happen.
The temperature that it takes for water to freeze into solid ice is 0 degrees Celsius. Other units of measurement for temperature include Fahrenheit (32 degrees) or Kelvin (273).
At room temperature, mercury (Hg) is a liquid, and methane (CH4) is a gas. The melting point of methane is -182.5 degrees Celsius. The melting point of mercury is -39 degrees Celsius. It takes more heat to melt the mercury.
The specific heat capacity of steam at 100 degrees Celsius is approximately 2.08 J/g°C. This means it takes 2.08 joules of energy to raise the temperature of 1 gram of steam by 1 degree Celsius at that temperature.
same size. Between freezing water and boiling water, there are 180 Fahrenheit degrees (32 to 212) and 100 Celsius degrees (0 to 100). So Fahrenheit degrees are smaller, because it takes more of them to cover the same range of temperature. 1 Fahrenheit degree = 5/9 of a Celsius degree (0.555...) 1 Celsius degree = 1.8 Fahrenheit degrees
Well, isn't that a happy little question! To convert Celsius to Fahrenheit, you can use this simple formula: Fahrenheit = (Celsius x 9/5) + 32. So, when we apply this to 250 degrees Celsius, we find that it is 482 degrees Fahrenheit. Just like painting a beautiful landscape, sometimes all it takes is a little math and a touch of imagination!
I'm not clear on what you're asking. Water can exist at many different Celsius degrees. Below zero, it takes the form of ice. Above 100, it takes the form of steam.
it takes about 20 minutes, well that's how long it takes me!
Water boils and turns into steam above 100 degrees Celsius.
Water takes this state between 0 and 100 degrees Celsius. It is in its liquid form within this temperature range.
Water takes the state of liquid (water) between 0 and 100 degrees celsius.
With a thermometer - and a stopwatch !
(Note: Centigrade is supposed to be called "Celsius" after Anders Celsius who invented it. It means the same thing.)Matter in general takes up less place cold than hot. This applies to steel as well. There are a variety of alloys of steel, but in general, the melting point is about 1,370 degrees Celsius.Given that, a cube of steel would take up less space at 0 degrees Celsius than at 100 degrees Celsius, but the difference would be negligible.
Ice (from pure water that is) will melt when the temperature rises from 0 degrees Celsius or higher. The only temperature ice will stay ice is 0 degrees Celsius or lower.
Celsius and Kelvin are essentially on the same scale but begin at different places. At 0 K (0 Kelvin) absolute zero takes place. In Celsius absolute zero occurs at - 273 degrees. So in order to convert from kelvin to Celsius, subtract 273. To convert from Celsius to kelvin, add 273.
As water cools from 4 degrees Celsius to 0 degrees Celsius, its density decreases. This decrease in density is due to the formation of hydrogen bonds between water molecules, causing them to arrange in a more organized structure that takes up more space, decreasing the overall density of the water.
Water takes liquid form between 0 and 100 degrees.
The time it takes for wood to freeze depends on many factors such as the type of wood, its moisture content, and the temperature of the surrounding environment. In general, wood freezes at 32 degrees Fahrenheit (0 degrees Celsius) like water, so when exposed to temperatures at or below freezing, wood can freeze within a matter of hours.