We explore the relationship between dust-emission derived reddening E(B – V) and atomic hydrogen column density N(H I) derived from 21?cm emission surveys. We consider measurements at galactic latitudes |b| 20o and E(B – V) 0.1?mag where the interstellar gas is predominantly neutral and atomic, and opacity corrections to 21?cm H I profiles are small. Over the Galaxy at large, at lower resolutions in H I, and on smaller scales at higher resolutions, we find that the reddening is always much smaller than would be expected from the usually quoted relation N(H) =5.8 × 1021 cm–2 E(B – V)? based on stellar reddening and UV absorption toward early-type stars. On wide scales we find N(H I) = 8.3 × 1021 cm–2 E(B – V). We cite various precedents for such a large N(H I)/E(B – V) ratio whenever wide-field 21?cm emission surveys are considered, including when reddening based on galaxy counts and colors is substituted for the dust-emission derived reddening measure.
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