Answer:
Isovolumetric process is a constant volume
Isobaric process is aconstant pressure
Isothermal process is a constant temperature
Step-by-step explanation:
For an ideal gas, the parameter paths for different thermodynamic processes are as follows:
Isovolumetric process (constant volume):
In an isovolumetric process, the volume of the gas remains constant while other parameters may change. The two-parameter paths for an isovolumetric process are:
a) Isovolumetric pressure change (isochoric process): In this process, the volume remains constant, but the pressure can change.
b) Isovolumetric temperature change (isochoric process): In this process, the volume remains constant, but the temperature can change.
Isobaric process (constant pressure):
In an isobaric process, the pressure of the gas remains constant while other parameters may change. The two-parameter paths for an isobaric process are:
a) Isobaric volume change (isometric process): In this process, the pressure remains constant, but the volume can change.
b) Isobaric temperature change (isothermic process): In this process, the pressure remains constant, but the temperature can change.
Isothermal process (constant temperature):
In an isothermal process, the temperature of the gas remains constant while other parameters may change. The two-parameter paths for an isothermal process are:
a) Isothermal pressure change (isentropic process): In this process, the temperature remains constant, but the pressure can change.
b) Isothermal volume change (isometric process): In this process, the temperature remains constant, but the volume can change.
It's important to note that these paths represent idealized scenarios and may not be achievable in real-world systems due to factors such as friction and heat exchange with the surroundings.