energy contribution

As a result, much less sweetener is required, and energy contribution often negligible.

However, it is important to properly balance the opposite energy contributions from different types of atoms.

Why has the renewable energy contribution not grown in line with expectation ?

Ignoring the factor of 2, the free energy contribution from this odd site is:

In an attempt to understand this behavior within the force field framework, we examined the various energy contributions for each conformation and method.

As for renewables, over the last decade their energy contribution has grown, but only from an infinitesimal to a tiny level.

Finally by 2030, renewable energy contributions would by increased to a mere 6%, while nuclear power was increased to around 30%.

Although on a world scale the geothermal energy contribution is low, more than 50 countries are at present engaged in research into methods of exploiting it.

It is unknown whether higher energy contributions to are a tower of identifiable ρ and a states or a smooth continuum.

We estimate the free energy (mainly entropic) cost per rotor by considering the partitioning of free energy contributions using equation (1).

This molecular modeling was combined with phenomenological free energy contributions describing lipid head group repulsion and membrane solvent surface tension.

If a favourable free energy change is to be obtained for crystallite formation, the entropy term has to be offset by a large negative energy contribution.

The energy contribution is added twice, once per each of the bonding orbitals involved in the angle (which may have different hybridizations and different values for k).

The potential energy contribution of this interaction is defined over S, set of atoms with van der Waals interaction, as:

The thermodynamics of each are explored through experimental procedures to assess the free energy contribution of the salt bridge to the overall free energy of the state.

For these reasons three distinct types of scoring functions based on the same set of energy contributions but different sets of energy-scaling coefficients are used by Lead-Finder.

Energy Contribution The power station has generated an average of about 0.8 billion units yearly, however for a good hydrological year the station can generate over 1 billion units.

The matrix is then diagonalized to determine the occupancy of the different atomic orbitals, and empirical formulae are used once again to determine the energy contributions of the orbitals.

This is an improvement over the original criterion, which requires comparison of the best possible (that is, the smallest) energy contribution from with the worst possible contribution from an alternative rotamer.

The second column shows the energy content in kilojoules per unit of mass in kilograms, useful in understanding the energy needed to ship the fuel, which takes away from its net energy contribution.

The simplest choice, employed in many popular force field (physics), is the "pair potential", in which the total potential energy can be calculated from the sum of energy contributions between pairs of atoms.

The energy of an individual rotamer is dependent on the "mean-field" energy of the other positions - that is, at every other position, each rotamer's energy contribution is proportional to its probability.

Individual energy contributions are scaled with empiric coefficients to fit particular purposes: accurate binding energy predictions, correct energy-ranking of docked ligand poses, correct rank-ordering of active and inactive compounds during virtual screening experiments.

The most frequent sea state is characterized by an energy period, T, around 4 sec and significant wave height H less than 0.5 m. The main energy contribution comes from the more energetic (but not that frequent) sea states.

With multiple modes of heat transfer, the final surface temperature (and hence the observed energy flux and calculated R-value) will be dependent on the relative contributions of radiation, conduction, and convection, even though the total energy contribution remains the same.