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19 Nov 2019
For both resonance structures, draw the curved arrows to show the flow of electrons that transforms them into each other. Add the bond(s), charge(s), and unshared electrons pairs. Question 1 of 10 Map A Although we normally think of acetic acid as an acid, it can also act as a weak base. Treated with a strong acid, it can became protonated. The conjugate acid of acetic acidis shown below. Derive a resonance structure for this ion which, taken with the given structure, would show that the two -OH groups are equivalent, the two C Obonds are equivalent, and the positive charge is shared equally by the two oxygens. The skeleton for the second resonance structure is provided below. Add the bond(s), charge(s), and unshared pairs of electrons. For both resonance structures below, draw the curved amows to show the flow of electrons that transforms them into each other. H, "O Previous ® Give up s view solution Check Answer ONext Ext L Hint
For both resonance structures, draw the curved arrows to show the flow of electrons that transforms them into each other. Add the bond(s), charge(s), and unshared electrons pairs.
Question 1 of 10 Map A Although we normally think of acetic acid as an acid, it can also act as a weak base. Treated with a strong acid, it can became protonated. The conjugate acid of acetic acidis shown below. Derive a resonance structure for this ion which, taken with the given structure, would show that the two -OH groups are equivalent, the two C Obonds are equivalent, and the positive charge is shared equally by the two oxygens. The skeleton for the second resonance structure is provided below. Add the bond(s), charge(s), and unshared pairs of electrons. For both resonance structures below, draw the curved amows to show the flow of electrons that transforms them into each other. H, "O Previous ® Give up s view solution Check Answer ONext Ext L Hint
Elin HesselLv2
3 Sep 2019