radiation energy

As such the most general picture of inflation would include a radiation energy density component.

Eventually the amount of radiation energy is great enough to cause sparks to fly, possibly causing a fire.

More and more radiation energy is added to the oven, but none gets absorbed.

The waves are set such that water molecules absorb them very well, changing the radiation energy into heat energy.

A disadvantage is, that the radiation energy of a possible fire must be much bigger than the present background heat radiation.

Insolation is a measure of solar radiation energy received on a given surface area in a given time.

As explained above, the cancels the radial dependence of radiation energy density.

The radiation energy density in compact radio sources.

Each material has its own radiation energies.

Metal will absorb microwaves, but it will not change the radiation energy into heat energy.

As a result, more radiation energy passes from hot to cold atoms than from cold to hot.

The pending exposure to radiation energy.

Radiation Energy transfer in the form of electromagnetic waves or particles that release energy when absorbed by an object.

States that we "must operate exclusively on our vast daily energy income from the powers of wind, tide, water, and the direct Sun radiation energy".

The metal re-emits the radiation energy: very much like visible light reflecting from the metal coating of a mirror.

After the vaporisation temperature has been reached, the vapor cavity is formed, and nearly all radiation energy can be put into the workpiece.

The flow of radiation energy through a small area element in the radiation field can be characterized by radiance .

Furthermore, it decreases at high altitudes because there is less air mass to absorb radiation energy and convert it into blast.

If the neutrino interacts with an electron, it can produce one tiny burst of radiation energy, like a tiny X-ray.

The emissivity of a given surface is the measure of its ability to emit radiation energy in comparison to a blackbody at the same temperature.

Note that in some treatments, the black-body spectral radiance is used rather than the spectral radiation energy density.

The sievert should not be used to express the unmodified absorbed dose of radiation energy, which is a clear physical quantity measured in grays.

Finally the total hemispherical emissivity is defined in terms of the radiation energy emitted over all wavelengths in all directions.

It should be noted, however, that the biomass cycle converts 'solar radiation energy to chemical energy' ( with significantly less efficiency than photovoltaic cells alone).

The conversion calculation is dependent on the radiation energy levels, the type of radiation being detected and the radiometric characteristic of the detector.