Sentence examples for description of emission from inspiring English sources

The description of emission processes of volatile and semi-volatile organic compounds (VOCs and SVOCs) from building products requires a detailed understanding of the material and the air flow conditions at the surface boundary.

Therefore, as described in "Problem description", evaluation of emission in another stage becomes crucial.

We describe the predictions of our model and show that it provides a reasonable qualitative description of the emission.

This provides a pertinent, robust, and efficient description of electronic emission including the detailed pattern of PES and PAD.

For a precise description of the emission situation of the anaerobic digestion (AD) of the separately collected organic fraction of household waste (bio-waste), only a few data are available.

It provides a comprehensive description of all emissions for each business and sets them in the context of local, national and global statistics.

Einstein's description of the stimulated emission process showed that the emitted photon is identical in every respect to the stimulating photons, having the same energy and polarization, traveling in the same direction, and being in phase with those photons.

The characteristic emission angle θ depends on the velocity of the charge β=v/c (with c being the speed of light in vacuum) and the refractive index of the medium n, through the Cerenkov relation (Fig. 1, left): cos{theta} = frac{1}{beta n} (1) Fig. 1 Left: Pictorial description of the Cerenkov emission.

When applying such models to controller design, accurate descriptions of the emissions restricted by legislation and of the emissions driving the λ sensor (NOx, CO, HC, H2 and O2) are important.

By comparing the two descriptions of the "act of emission", Einstein arrives at his celebrated result: "the mass of a body is a measure of its energy-content; if the energy changes by L, the mass changes in the same sense by L/9 × 1020, the energy being measured in ergs, and the mass in grammes" (1905b, p. 71).

Dirac's theory treated the electromagnetic field as a "gas" of photons (the quanta of light), and it yielded a correct description of the absorption and emission of radiation by electrons in atoms.