Recall that an electrostatic potential map shows a gradient that matches the rainbow: ROY G. BIV,...
Recall that an electrostatic potential map shows a gradient that matches the rainbow: ROY G. BIV,with red representing the most negative (di) regions of a molecule and blue/violet representing the most positive (d regions of a molecule. If you used WebMO to create an electrostatic potential map of the molecule shown below (3,9-dihydro-2H-purin-2-one), which nitrogen(s) would tend toward red? Hint: think about localized versus delocalized lone pairs. IV only IIl would tend toward red , ,I, and IV would tend toward red l and II would tend toward red IlI and IV would tend toward red Il and Ill would tend toward red I and Il would tend toward red only Il would tend toward red only I would tend toward red II and IV would tend toward red I and IV would tend toward red
Recall that an electrostatic potential map shows a gradient that matches the rainbow: ROY G. BIV,with red representing the most negative (di) regions of a molecule and blue/violet representing the most positive (d regions of a molecule. If you used WebMO to create an electrostatic potential map of the molecule shown below (3,9-dihydro-2H-purin-2-one), which nitrogen(s) would tend toward red? Hint: think about localized versus delocalized lone pairs. IV only IIl would tend toward red , ,I, and IV would tend toward red l and II would tend toward red IlI and IV would tend toward red Il and Ill would tend toward red I and Il would tend toward red only Il would tend toward red only I would tend toward red II and IV would tend toward red I and IV would tend toward red