Beside equations of heat transfer with mechanisms of Conduction Convention and Radiation is there a general equation to calculate the total heat transfer. Where rate of change of total energy of the system rate of heat added to the system rate of work done by the system. C is the specific heat of an object in Jg C.
The solution to the differential equation in this case is f x c 1 c 2 x.
At any point in the medium the net rate of energy transfer by conduction into a unit volume plus the volumetric rate of thermal energy generation must equal the rate of change of thermal energy stored within the volume. This is the general heat conduction. Bernoullis equation is one of the most important relations in fluid mechanics but it only works under certain conditions such as no shaft work and negligible heat transfer. M is the mass in grams.