What is radiant flux?
The primary concept is that of the radiant flux of a source, that is, the amount of radiant energy emitted into space in unit time. Usually, we consider only a fraction of the total flux, namely the flux within a relatively small solid angle in the direction of observation, for example, the flux that reaches the dispersing medium or the detecting system.
How to Calculate Relative Radiant Intensity of Atom Line?
Relative Radiant Intensity of Atom Line calculator uses Radiant Intensity = (Gaseous Layer Thickness/(4*pi))*Transition Number*[hP]*Spectral Line Frequency to calculate the Radiant Intensity, The Relative Radiant Intensity of Atom Line formula is defined as the radiant flux emitted, reflected, transmitted or received, per unit solid angle. The modifications of the radiant energy flow upon passing from the field point to the observer through the gaseous layer are also considered. Radiant Intensity is denoted by Ir symbol.
How to calculate Relative Radiant Intensity of Atom Line using this online calculator? To use this online calculator for Relative Radiant Intensity of Atom Line, enter Gaseous Layer Thickness (d), Transition Number (N) & Spectral Line Frequency (νqp) and hit the calculate button. Here is how the Relative Radiant Intensity of Atom Line calculation can be explained with given input values -> 1.204743 = (120000000/(4*pi))*5.6E+23*[hP]*340.