It is not. The density and mass would be used to find the volume.
863.78
DElta means "Change" delta can be represented by a triangle
Yes, it is. delta mixG=nRT(xlnx+...) and delta mixV=dG/dp => delta V=0
Delta y / delta x= (y2-y1)/(x2-x1) = -9/7
Temperature
The delta H fusion, or enthalpy of fusion, represents the amount of energy required to convert a unit mass of a solid into a liquid at its melting point without changing its temperature. To calculate the energy needed to melt a specific mass of solid, you multiply the mass of the solid by the delta H fusion value. The formula can be expressed as ( Q = m \times \Delta H_f ), where ( Q ) is the energy required, ( m ) is the mass, and ( \Delta H_f ) is the enthalpy of fusion. This calculation provides the total energy necessary to achieve the phase transition from solid to liquid.
1kJ x 1/Hvap x g/mol liquid
No. Specific heat capacity (c) is used in to calculate energy when matter is not undergoing a phase change [Q = mc(delta)T]. Heat of fusion (HF) is used to calculate energy when matter is either melting or freezing [Q = m(HF)].
To calculate the delta temperature, you will take the difference between the final and initial temperature.
To calculate Delta t, you would subtract Universal Time or UT from Terrestrial Time or TT. Delta t would be the difference.
The formula to calculate the mass of liquid boiled by 1 kJ of energy is: mass = 1 kJ / delta Hvap. ΔHvap is the molar enthalpy of vaporization, which is the amount of energy required to vaporize one mole of a substance. By dividing the energy input (1 kJ) by the enthalpy of vaporization, you can determine the mass of liquid that will be vaporized.
delta f over delta dc-v
Delta G (written triangle G) = Delta H -T Delta S
Delta G (written triangle G) = Delta H -T Delta S
Delta T (oC) =Inlet Temperature (oC) -outlet temperature (oC)
To calculate delta H in chemistry, you subtract the enthalpy of the reactants from the enthalpy of the products in a chemical reaction. This difference represents the change in heat energy during the reaction.
If you are talking about rockets: T.ave = ((Isp)(delta Weight.ave))/(delta time.ave) That's one way to find it.