i need help with the last two structures on the left and right please 

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## Resonance The image contains several diagrams showing resonance structures, where molecules are depicted in their original form along with their resonance forms indicated by double-headed arrows. Here's a detailed breakdown of each set of structures shown: 1. **First Row:** - A ring structure with five carbon atoms (a cyclopentadienyl anion) is resonating with a structure depicted with double bonds and an oxygen atom bearing a positive charge attached to the ring. 2. **Second Row:** - A molecule with a chain of three carbons attached to a carbonyl group and a hydroxyl group (likely a carboxylic acid) is resonating with its alternative form where the oxygen is positively charged and the double bond has shifted onto the carbonyl carbon, making it a positive species. 3. **Third Row:** - A carbon-oxygen double bond with a positively charged oxygen (an oxonium ion) is shown resonating with another form in which the positive charge is now delocalized, possibly showing a different resonance structure involving a lone electron pair on the adjacent carbon. 4. **Fourth Row:** - A molecule with a six-membered ring that includes an oxygen double-bonded to carbon (carbonyl group) and a hydroxyl group, resonating with its alternative form where the oxygen carries a negative charge, and a shift of the position of the double bond around the ring is observed. 5. **Fifth Row:** - A nitrile group (a carbon triple-bonded to nitrogen) attached to two hydrogen atoms resonates with its alternative form where the negative charge on the nitrogen shifts to form another resonance structure involving additional electron lone pairs. 6. **Sixth Row:** - A six-membered ring containing a ketone (carbonyl group) with a nitrogen and a hydroxyl group. The molecule is shown resonating with another form where the nitrogen carries a positive charge and the electron density has shifted. The depiction uses arrows to indicate the movement of electrons during the resonance and highlights the stability and delocalization of electrons within these structures. Resonance structures are crucial for understanding the behavior of molecules in organic chemistry, as they show possible electron distributions within a molecule, which can affect reactivity and interaction with other compounds.