Answer :

Final answer:

The negatively charged species can be formed through the formation of an ionic bond between a carbon atom with a +4 charge and a nitrogen atom with a -3 charge.

Explanation:

In a molecule, the overall charge is determined by the sum of the charges on each atom. In the case of a carbon atom with a +4 charge and a nitrogen atom with a -3 charge, the negatively charged species can be formed through the formation of an ionic bond. For example, if one carbon atom with a +4 charge forms a bond with three nitrogen atoms, each with a -3 charge, the resulting molecule would have an overall charge of -1.

Ionic Bond Formation: Let's consider the possibility of a carbon atom with a +4 charge forming an ionic bond with a nitrogen atom with a -3 charge. In this hypothetical scenario, if one carbon atom with a +4 charge were to interact with three nitrogen atoms, each carrying a -3 charge, an intriguing outcome emerges.

The carbon atom, with its +4 charge, could donate four electrons to the three nitrogen atoms collectively, allowing them to achieve a stable, full outer electron configuration.

This donation of electrons transforms the nitrogen atoms into negatively charged ions (nitrates) and leaves the carbon atom as a positively charged ion (carbocation).

The resulting molecule, bearing three nitrate ions and one carbocation, would indeed possess a net negative charge. This configuration represents a negatively charged species, where the charge is distributed among the constituent ions.

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