Frozen (23F)
The temperature of the water is 100 degrees celsius.
The change in temperature is 25 degrees Celsius, meaning it takes 22.48 joules per degree of change. The specific heat of iron is 0.449 J/g degree Celsius. This means that the mass of iron must be 50.07 grams
See the Related Question (link to the left of this answer)."How many moles of carbon dioxide are there in a 50.0 dm3 sample of the gas at a pressure of 100.0 kPa and a temperature of 50 degrees celsius?" 1.86 moles
The energy is used to break down hydrogen bonds between the water molecules making up the ice, during which there is no temperature change. Then the energy is used to change the ice into the liquid phase. Once the phase change is complete, the temperature will increase.
85 + 273 = 358 K.
275 degrees
mmmm enthalpy
That would depend on the mass of the sample, its temperature, and what the sample is made of.
The temperature of the water is 100 degrees celsius.
1.7293
No. Pure water boils at 100 degrees Celsius or less.
The difference is also 12 degrees.
changes 10 degrees C and 283 degrees K if im not mistaken which im bound to be not sure of the esential #
The change in temperature is 25 degrees Celsius, meaning it takes 22.48 joules per degree of change. The specific heat of iron is 0.449 J/g degree Celsius. This means that the mass of iron must be 50.07 grams
80
Adding salt to water lowers the temperature at which water freezes from 0 degrees Celsius to several degrees colder than that (depending on how much salt is added). Practically what that means is that a sample of pure water at -1 degrees Celsius will be frozen solid, but a sample of salt water at the same temperature will remain liquid since its freezing point is lower that.
Depending on the pressure, it can be in any of these phases.