(Solved): Provide a mechanism that explains formation of the following products. H2SO4 +H2O x ...

Provide a mechanism that explains formation of the following products. $$\stackrel{{\mathrm{H}}_2{\mathrm{SO}}_4}{?}$$ $$+{\mathrm{H}}_2\mathrm{O}$$ $$\mathbf{x}$$ incorrect. Draw step one of this mechanism. Include lone pairs and formal charges in the mechanism. Draw out explicitly only the ONE hydrogen removed from the $${\mathrm{H}}_2{\mathrm{SO}}_4$$. Use equilibrium arrow in this mechanistic step. Draw step three of this mechanism, which fórms a resonance stabilized carbocation. Do not draw the resonance structures in your mechanistic steps. Include all lone pairs and formal charges in the mechanism. Use equilibrium arrow in this mechanistic step. To show regiochemistry of the addition of the alkyl group draw an arrow from double bond of benzene to carbocation. Draw step four of this mechanism. Include all lone pairs and formal charges in the mechanism. Draw out explicitly only the ONE hydrogen that is removed in the elimination step. Do NOT include any of the above resonance structures in your mechanism. Use regular reaction arrow for this mechanistic step. Use $${\mathrm{H}}_2\mathrm{O}$$ as the base. Draw step five of this mechanism. Use $${\mathrm{H}}_2{\mathrm{SO}}_4$$ as the acid source in this mechanistic step. Include all lone pairs and formal charges in the mechanism. Draw out explictly only the ONE hydrogen removed from the $${\mathrm{H}}_2{\mathrm{SO}}_4$$. Use equilibrium arrow in this mechanistic step. Draw step six of this mechanism. Include all lone pairs and formal charges in the mechanism. Use equilibrium arrow in this mechanistic step. Draw step seven of this mecharfism, which forms a resonance stabilized carbocation. Include all lone pairs and formal charges in the mechanism. Use equilibrium arrow in this mechanistic step. To show regiochemistry of the addition of the alkyl group draw an arrow from double bond of benzene to carbocation. Draw step eight of this mechanism, which forms the final product. Include all lone pair's and formal charges in the mechanism. Draw out explicitly only the ONE hydrogen that is removed in the elimination step. Use regular reaction arrow for this mechanistic step. Use $${\mathrm{H}}_2\mathrm{O}$$ as the base.