When a thermodynamic system is taken from state A to B?
When a thermodynamic system is taken from state A to B?
A thermodynamic system is taken from state A to B along ACB and is brought back to A along BDA as shown in the PV diagram. The net work done during the complete cycle is given by the area
When a thermodynamic system is taken from state A?
A thermodynamic system is taken from an original state to an intermediate state by the linear process shown in the figure. Its volume is then reduced to the original value from E to F by an isobaric process.
When a thermodynamic system of ideal gas is taken from state A to B?
When an ideal gas is taken from gas thermodynamics state A to another given thermodynamic state B by any polytropic process, the change in the internal energy of the system will be the same in all processes.
What are the thermodynamic state variables?
Thermodynamic state variables are the macroscopic quantities which determine the thermodynamic equilibrium state of a system. Pressures (P), Volume (V), Temperature (T), mass (m), Internal energy (U) are the thermodynamic state variables.
How are non-state variables related to thermodynamics?
The statement about two non-state variables giving a state variable is probably a reference to the first law of thermodynamics, which relates changes in the internal energy of a system (a state variable) to heat flow and work done (both non-state variables). Hmmmm, i understand now, thanks !!!!
How are state variables described in a dynamic system?
The State Variables of a Dynamic System • The state of a system is a set of variables such that the knowledge of these variables and the input functions will, with the equations describing the dynamics, provide the future state and output of the system. • For a dynamic system, the state of a system is described in terms of a set of state variables.
Which is the smallest variable in a dynamic system?
•State Variables:The state variables of a dynamic system are the variables making up the smallest set of variables that determine the state of the dynamic system. •State Vector:If nstate variables are needed to describe the behavior of a given system, then the nstate variables can be considered the ncomponents of a vector x.
Which is statement about two non-state variables giving a state variable?
The statement about two non-state variables giving a state variable is probably a reference to the first law of thermodynamics, which relates changes in the internal energy of a system (a state variable) to heat flow and work done (both non-state variables). Hmmmm, i understand now, thanks !!!! You must log in or register to reply here.