In Polytropic process the product of Pressure and Volume (PV) power 'n' is constant where, 'n' is polytropic index
1.2 to 1.4
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 )
flow process : it is one in which fluid enters the system and leaves it after work interaction,which means that such processes occur in the systems having open boundary permitting mass interaction across the system boundary. non flow process : it is the one in which there is no mass interaction across the system boundaries during the occurrence of process. different type of non flow process of perfect gas are given below: (1) constant volume process (2) constant pressure process (3) Isothermal process (4) adiabatic process (5) polytropic process
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.
In Polytropic process the product of Pressure and Volume (PV) power 'n' is constant where, 'n' is polytropic index
See wikipedia article on polytropic processes.
the value of polytropic exponent "n" in reversible process will vary from 1 to adiabatic constant "gamma"
1.2 to 1.4
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)
The process equation for this is PV up to the nth power which equals C. The polytrophic process is 1.25 which is the n in the equation.
for isen tropic process the heat transfer(Q) will zero. for poly tropic process is heat transfer not equal to zero
flow process : it is one in which fluid enters the system and leaves it after work interaction,which means that such processes occur in the systems having open boundary permitting mass interaction across the system boundary. non flow process : it is the one in which there is no mass interaction across the system boundaries during the occurrence of process. different type of non flow process of perfect gas are given below: (1) constant volume process (2) constant pressure process (3) Isothermal process (4) adiabatic process (5) polytropic process
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.
blood flows from your body to an external heat sink where it loses energy in the form of heat...it is then pumped back in via super saiyan powers where heat is then added at constant pressure during a polytropic process where n varies from 1 to +inf...it then flashes to vapor as it enters your lungs due to the immense internal energy of super saiyan state and allows you to have a power output on the magnitude of the kraken... all of this assumes of course that you are saiyan initially and not human
They got their education by secretly learning it if their master didn't allowed because it was illegal. Sometimes, their masters tought the slave even though it was against the law. By secretly learning it, they could learn it off another slave or steal a book and educate themselves.