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Solid angle
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==Practical applications== *Defining [[luminous intensity]] and [[luminance]], and the correspondent radiometric quantities [[radiant intensity]] and [[radiance]] *Calculating [[Spherical trigonometry#Area and spherical excess|spherical excess]] {{math|''E''}} of a [[spherical triangle]] *The calculation of potentials by using the [[boundary element method]] (BEM) *Evaluating the size of [[ligand]]s in metal complexes, see [[ligand cone angle]] *Calculating the [[electric field]] and [[magnetic field]] strength around charge distributions *Deriving [[Gauss's Law]] *Calculating emissive power and irradiation in heat transfer *Calculating cross sections in [[Rutherford scattering]] *Calculating cross sections in [[Raman scattering]] *The solid angle of the [[acceptance cone]] of the [[optical fiber]] *The computation of nodal densities in meshes.<ref>{{cite journal| last = Falla| first = Romain| year = 2023| title = Mesh adaption for two-dimensional bounded and free-surface flows with the particle finite element method| journal = Computational Particle Mechanics| volume = 10| issue = 5| pages = 1049β1076| doi = 10.1007/s40571-022-00541-2| bibcode = 2023CPM....10.1049F| url = https://link.springer.com/article/10.1007/s40571-022-00541-2}}</ref>
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