if the mass has changed by more than 0.02g, repeat heating for another 5-10 minutes, when the mass stops changing, all of the water is gone.
Analysis results should be reported to a stable compound to be compared.
heat constant = mass * specific heat capacity * temperature change
Density Specific Volume Pressure Temperature Viscoisy Gas Constant Heat Specific
as mass is the quantity of matter contained in a body
The specific heat is the necessary energy to raise the temperature of a mass unit (gram, kilogram, mole) of a substance with one kelvin.
Yes it has! the specific heat of water at constant volume is given by cV : Heat capacity at constant volume cP : Heat capacity at constant pressure : Thermal expansion coefficient : Isothermal compressibility : Density
heat constant = mass * specific heat capacity * temperature change
This is the necessary heat to raise the temprataure of 1 mol with 1 kelvin, at constant volume.
None - heat is evolved, not required.
The heat of fusion is the amount of energy required to change 1 unit mass of a solid to a liquid at constant temperature.
Density Specific Volume Pressure Temperature Viscoisy Gas Constant Heat Specific
Mass of a body is constant
It depends on the mass (m), specific heat (c), convective heat transfer coefficient (h) and the surface area (As) In other words, Time Constant = (m * c) / ( h * As)
as mass is the quantity of matter contained in a body
The specific heat is the necessary energy to raise the temperature of a mass unit (gram, kilogram, mole) of a substance with one kelvin.
Force = (mass) times (acceleration) Constant force produces constant acceleration.
Yes it has! the specific heat of water at constant volume is given by cV : Heat capacity at constant volume cP : Heat capacity at constant pressure : Thermal expansion coefficient : Isothermal compressibility : Density
i think... acceleration is constant but im not sure