The Third Law of Thermodynamics.
"Absolute zero (0 K) is the lower limit of temperature. The temperature of absolute zero cannot be attained physically because to do so would require virtually all the heat to be taken from an object. Therefore, it is impossible to attain a temperature of absolute zero."
it would take 28 hours and 31 minutes give or take falling at an average speed of 140mph.
The frequency of the waves reaching you is higher then.
In the form of radiation, heat energy will move to the water. (Remember: hot moves to cold and cold can't move!) Eventually, the water will reach the same temperature as the air around it, reaching equilibrium. Hope this helped!
Robert Goddard
Any producer of heat can produce light by reaching enough energy
Moksha
Yes of Course it will!
Because on the Celsius (aka Centigrade) scale, zero is defined as the freezing point of water at standard pressure. On the Kelvin ( aka absolute ) scale zero is defined as the lowest temperature possible - not relative to water or any other substance.
First of all, I would like to tell everyone that reaching the "upper levels" isn't nearly as important as finding out a way to reach within an attokelvin of absolute zero (that is about 0.000000000000000001° kelvin). However, the highest temperature we've ever gotten is 2.3 billion degrees Fahrenheit (2,300,000,000°F).
Engine not reaching operating temperature.
First of all, energy needs to be removed from the system to cool it towards Absolute Zero. Second, reaching Absolute Zero is not possible.
Point C
At the top of Saturn's clouds, the temperature averages -175 C. However, the temperature reaching an extreme high of 11,700 C at the core.
Never. They've gotten an object to a fraction of a degree above absolute zero, but absolute zero is physically impossible. If you look at the ideal gas law, PV=nRT, where T is temperature and V is volume, if T were ever 0, volume must also equal 0. So in theory, if an object ever got down to 0 degrees, it must also have 0 volume. 0 volume means it isn't there, so reducing an object's volume to 0 would be equivalent to making it disappear, which is impossible. therefore, reaching absolute zero is physically and theoretically impossible.
The engine is not reaching normal operating temperature. Replace the thermostat.
By international agreement, absolute zero is defined as precisely 0 K on the Kelvin scale, which is a thermodynamic (absolute) temperature scale, and −273.15° on the Celsius (centigrade) scale. Absolute zero is also precisely equivalent to 0 °R on the Rankine scale (also a thermodynamic temperature scale), and −459.67 degrees on the Fahrenheit scale. Though it is not theoretically possible to cool any substance to 0 K, scientists have made great advancements in achieving temperatures close to absolute zero, where matter exhibits quantum effects such as superconductivity and superfluidity. In 2000 the Helsinki University of Technology reported reaching temperatures of 100 pK (1×10−10K), which is the coldest temperature ever produced in a lab.
a process in which something is changed from a liquid to a vapour without its temperature reaching boiling point