thermodynamic
thermodynamical

Clearly, no such general law can hold for all open thermodynamic systems.

A thermodynamic system can be defined in terms of its states.

There are a few especially important kinds of thermodynamic work.

These works are among several reference books for thermodynamic data.

I care about whether things make thermodynamic and ecological sense.

Thus, we can say that where the are different thermodynamic functions of state.

An example of a thermodynamic system is a stone brick.

In thermodynamic terms, heat is being added to the rocks.

A thermodynamic system is an object or a group of objects.

How much work does it take to restore the original thermodynamic state?

But why should the thermodynamic arrow of time exist at all?

Rather, it depends on the state variables of the thermodynamic system under study.

The table format is a common way to display thermodynamic data.

This is the same as the thermodynamic heat of combustion.

Thermodynamic principles were used in the development of physical chemistry.

It may be expressed in terms of other thermodynamic parameters.

These values can be found in thermodynamic books or online tables.

Scientists also study thermodynamic data such as Henry's law coefficients.

An important idea in thermodynamics is that of a thermodynamic system.

Thermodynamic work need not have any mechanical component to be considered such.

Thermodynamic work does not account for any energy transferred between systems as heat.

An isolated system is in thermodynamic equilibrium when its state does not change with time.

Other countries use similar thermodynamic diagrams for the same purpose.

Each is directly related to a second order differential of a thermodynamic potential.

Similarly his work on thermodynamic parameters is now used as data base.

This allows us to extract all the thermodynamical quantities of interest.

However it has no actual physical meaning except when in local thermodynamical equilibrium.

It is a constant at a given temperature, which can be calculated, using thermodynamical tables.

This definition of entropy does not have a clear thermodynamical interpretation.

We should note here that the notion of multiplicity is valid for any thermodynamical system.

As our thermodynamical system we take a big system which includes the engine and the two reservoirs.

As the systems and processes of interest are taken further from thermodynamic equilibrium, their exact thermodynamical study becomes more difficult.

Curvature is a measure of the thermodynamical interaction.

A thermodynamical approach to the high energy collisions first proposed by E. Fermi.

To describe such a system thermodynamically, one needs to enlarge the thermodynamical state space of the system.

The book rapidly surveys some basic ecological and thermodynamical concepts, which are then briefly applied to Western history.

This scale is developed as a practical approximation of the thermodynamical temperature scale.

Entropy is a property of thermodynamical systems.

As thermodynamical objects with non-zero temperature, black holes should emit thermal radiation.

However, in this case of mammatus, the base is cooled by thermodynamical mechanisms mentioned above.

It is commonly believed, however, that this symmetry breaking appears only in the thermodynamical limit (see, for example, the arrow of time).

The fact that the system does not have a unique energy means that the various thermodynamical quantities must be defined as expectation values.

A further result is that what corresponds to the result of the thermodynamical model in the case of short range interactions.

In the thermodynamical limit, the specific entropy becomes independent on the choice of δE.

A thermodynamic reservoir, an ideal thermodynamical system.

In the thermodynamical limit of infinite system size, the relative fluctuations in these averages will go to zero.

In the following thermodynamical equilibrium is assumed, as well as for simplicity (2) should be a vaporous phase.

In 1935, he published a monograph Theoretical biology, in which he described the general thermodynamical features of living systems.

A non-equilibrium thermodynamical system is modeled by considering macroscopic fluctuations of the local inverse temperature.

The thermodynamical variables are defined subject the kinematical requirement of local thermodynamic equilibrium.