the heating curve is circa 20-30 C, while the cooling curve is circa 0 C
The pure yield curve uses stripped or zero coupon Treasuries.
Heating pure water the pH decrease.
Pure water is a poor conductor of electricity because of the lack of ions. You need ions (electrically charged particles) to propagate the charge through the water. Both tap and pure water are poor conductors of heat.
Yes, the pair of gases can easily be combined to create pure water. Passing the two gasses across a hot surface will cause the hydrogen and oxygen to "burn" or recombine, and (pure) water will form. The water will appear as a hot gas, but cooling it will cause it to condense.
I could say heat, but I think you mean electricity So: pure water doesn't, but a little salt will turn it into a conductor. But it's it ions, not the water, that conducts.
i dont really know it might be H20 aka water but its probably a chemical
The pure yield curve uses stripped or zero coupon Treasuries.
The impurity of a substance may enhance or decrease the rate of cooling, according to its chemical properties.
The demand curve faced by a pure monopolist is of downward sloping in shape.
because of the heat in the water
Yes, you can. In fact, pure water is a more effective coolant than any mixture of water and antifreeze. However, it is not recommended that you run pure water in a cooling system for an extended length of time. Not only does antifreeze protect against freezing. It also contains corrosion inhibiters, which help prevent your engine and radiator from succumbing to corrosion. For these reasons, using only water in your cooling system is something you should do only when you have no choice (such as a roadside emergency). However, if pure water is used in a cooling system for this reason, the cooling system should be drained ASAP and refilled with the proper mixture of antifreeze and water.
Pure water is NOT magnetic, a poor conductor of electricity, but good in sound and heat.
Distillation is the easiest way. Heat the water until it evaporates, leaving the salt behind. Catch and condense the water vapor into pure water.
yes
4.18 J/g*C
Heating pure water the pH decrease.
All pure substances in nature are able to change their state. Solids can become liquids (ice to water) and liquids can become gases (water to vapor) but changes such as these require the addition or removal of heat. The heat that causes these changes is called latent heat. Latent heat however, does not affect the temperature of a substance - for example, water remains at 100°C while boiling. The heat added to keep the water boiling is latent heat. Heat that causes a change of state with no change in temperature is called latent heat. Appreciating this difference is fundamental to understanding why refrigerant is used in cooling systems. It also explains why the terms 'total capacity' (sensible & latent heat) and 'sensible capacity' are used to define a unit's cooling capacity. During the cooling cycling, condensation forms within the unit due to the removal of latent heat from the air. Sensible capacity is the capacity required to lower the temperature and latent capacity is the capacity to remove the moisture from the air.