for isen tropic process the heat transfer(Q) will zero. for poly tropic process is heat transfer not equal to zero
It means that the proces is somewhere between an isothermal and a adiabatic proces
You have some heat transfer, but not all of it.
q=c(T2-T1)
what is heat a thermodynamic function
The 3 thermodynamic properties are delta H, G, & S.
There are three laws of thermodynamics, not inlcluding the understood fourth law. Thermodynamics is the study of how energy is transferred in a system.
Thermodynamic equilibrium is when the inputs and outputs of a system is equal. This may be in terms of heat energy or in terms of liquid/gas flow.
See wikipedia article on polytropic processes.
In Polytropic process the product of Pressure and Volume (PV) power 'n' is constant where, 'n' is polytropic index
the value of polytropic exponent "n" in reversible process will vary from 1 to adiabatic constant "gamma"
1.2 to 1.4
There is not such thing as a "chemical tornado" a tornado is the result of thermodynamic physical processes.
No. While a tornado is driven largely by thermodynamic processes it is a natural event, not a form of technology.
It means that the proces is somewhere between an isothermal and a adiabatic proces You have some heat transfer, but not all of it.
It means that the proces is somewhere between an isothermal and a adiabatic proces You have some heat transfer, but not all of it.
At engineering level technically both process are same except there definition both process give hyperbolic curve in P-V diagram and straight line in T-S diagram. and even in polytropic process PV^n=constant if n=1 then it is not hyperbolic process it is isothermal process even though the definition says pv=c is hyperbolic process.
A polytropic process is a process where ( P ) ( V )^n is maintained throughout the process; commonly a compression or an expansion. The n is called the polytropic exponent and is often between 1.0 and k , the specific heat ratio. For a reversible, polytropic, and nonflow process : WB = [ ( P2 ) ( V2 ) - ( P1 ) ( V1 ) ] / [ 1 - n ] or WB = [ 1 / 1 - n ][ ( P1 ) ( V1 ] [ ( P2 / P1 )^B - 1 ] B = ( n - 1 ) / ( n ) For a reversible, polytropic, and steady flow process : WSF = [ n / 1 - n ] [ ( P1 ) ( V1 )] [ ( P2 / P1 )^B - 1 ] B = ( n - 1 ) / ( n )
q=c(T2-T1)
Applied thermodynamics is the science of the relationship between heat, work, and systems that analyze energy processes. The energy processes that convert heat energy from available sources such as chemical fuels into mechanical work are the major concern of this science. Thermodynamics consists of a number of analytical and theoretical methods which may be applied to machines for energy conversion