In Physics , intensity is a Measure of the Time-averagedEnergyFlux . To find the intensity, take the energy density (that is, the energy per unit volume) and multiply it by the Velocity at which the energy is moving. The resulting Vector has the units of Power divided by Area (i.e. watt/m&2). It is possible to define the intensity of the water coming from a garden sprinkler, but intensity is used most frequently with Wave s (i.e. Sound or Light ).
In physics, the word "intensity" is not synonymous with "", as it sometimes is in colloquial speech. For example, "the intensity of pressure" is meaningless, since the parameters of those variables do not match.
If a point source is radiating energy in three dimensions and there is no energy lost to the medium, then the intensity decreases in proportion to distance from the object squared. This is due to physics and geometry. Physically, Conservation Of Energy applies. The consequence of this''' is that the net power coming from the source must be constant, thus:
:
where ''P'' is the net power radiated, ''I'' is the intensity as a function of position, and ''dA'' is a differential element of a closed surface that contains the source. That ''P'' is a constant. If the source is radiating uniformly, i.e. the same in all directions, and we take ''A'' to be a sphere centered on the source (so that ''I'' will be constant on its surface), the equation becomes:
