Isobaric process

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An isobaric process is a thermodynamic process in which the pressure stays constant: Δp = 0. The heat transferred to the system does work but also changes the internal energy of the system:

The yellow area represents the work done
The yellow area represents the work done
Q = \Delta U + W\,

According to the first law of thermodynamics, where W is work done by the system, U is internal energy, and Q is heat. Pressure-volume work (by the system) is defined as:

W = \Delta (p\,V)

but since pressure is constant, this means that

W = p \Delta V\,.

Applying the ideal gas law, this becomes

W = n\,R\,\Delta T

assuming that the quantity of gas stays constant (e.g. no phase change during a chemical reaction). Since it is generally true that

\Delta U = n\,c_V\,\Delta T

then substituting the last two equations into the first equation produces:

Q = n\,c_V\,\Delta T + n\,R\,\Delta T
= n\,(c_V + R)\,\Delta T.

The quantity in parentheses is equivalent to the molar specific heat for constant pressure:

cp = cV + R

and if the gas involved in the isobaric process is monatomic then c_V = \frac{3}{2}R and c_p = \frac{5}{2}R.

An isobaric process is shown on a P-V diagram as a straight horizontal line, connecting the initial and final thermostatic states. If the process moves towards the right, then it is an expansion. If the process moves towards the left, then it is a compression.

An isochoric process is described by the equation Q = ΔU. It would be convenient to have a similar equation for isobaric processes. Substituting the second equation into the first yields

Q = \Delta U + \Delta (p\,V) = \Delta (U + p\,V)

The quantity U + p V is a state function so that it can be given a name. It is called enthalpy, and is denoted as H. Therefore an isobaric process can be more succinctly described as

Q = \Delta H \,.

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