ayo ° wavelength valuesin 20A 128 . 2 23 ac eg 34 intervals RSS ia a: ok <2 hee: . vat . -. 4 { t 2° | Le e & 23 4 2s an && G8 &8 3 a3 | - ow : bands of moleoular oxygen 28 + ,. a8 . , — Ea 1 a Es . | E . : ceee de BTS y ‘ meae ves 76.65 BR Br 75.53 £ . , - - eS | Tod —t | moo, oe o ia ' a an : , . ‘ ‘ . ¢ , . ‘ poe ty ” \ aa 04, a ‘hi 4s agilts . . oo Ags : a oop ;‘ V . eo yo — me SO pty Mou ot ; ’ - : . ' Ce : t, L Symbols (along with Brd) used tq ‘ Abs 80.1 io [sare vatued i} 4 : . ; : : avel rounded cect 38 rors fntensity of spectral line Very broad spectral line & dy identify broad epectra) lines : Brsél.4 | ii . : a a qs he : @ s 17.22 These have been identified in at least one shot and are “ assumed present in any shot where the numerical values of ’ : } . os - trum of that shot. the measured wavelengths for the lines agree. Of course, superpositions of lines are very common; so many measured King ‘ Le Identifications ia a single column ‘were made specifically for the spec~ fo: -Total , King 8 ° t - cE superposition, the bands themselves were not distinctly i seen. so Baird Em 69.3 == Br 73e3 4 "“ «97 wavelengths will have more than one identification asso+ clated with them. . Some OH values are given as being probable. Because of ,. ne tot “ 4 Mainly accepted S-R wavelengths for P and R branch lines. a wo © ; G.p. { * P51 75.6 8-B 1-16 . . 8-R1-16 ~~{ Branch lineidentification | ; J values of P and R branch lines of Schumanna-Runge . . 3 BB { t ‘ “© + 2 BC 4070-4089 . Index a ¢ my oo a “ . Guide for the Use of Composite Wavelength Table it WWD fo . . ; 0 ' ‘ a be Ta BF “pada PB SP Ah TE, soy ‘ ’ aie nt ey . {Identification of element most probably giving rise to spectral lines ~” e a . ote ero, ‘ ,