In this episode, we break down aromatic compounds, a crucial topic for the Biochem and Chem/Phys sections of the MCAT. You’ll learn what makes a compound aromatic, how to identify them using Huckel’s Rule, and the difference between aromatic, antiaromatic, and nonaromatic compounds. Sam Smith covers key examples like benzene, toluene, and phenol, and explains their role in biological systems like DNA and the electron transport chain. With practical tips and MCAT-focused insights, you'll be ready to tackle questions on aromatic compounds with confidence. Visit MedSchoolCoach.com for more help with the MCAT. Jump into the conversation: (00:00) Introduction and Med School Coach Promotion (01:03) Introduction to the Topic: Aromatic Compounds (02:08) Definition of Aromatic Compounds and Electron Delocalization (04:43) Explanation of Huckel’s Rule and Aromaticity Criteria (07:59) Introduction to Antiaromatic Compounds (09:58) Definition of Polycyclic and Heterocyclic Aromatic Compounds (12:02) Common Aromatic Compounds to Know: Benzene, Toluene, Phenol, Aniline (14:54) Properties of Aromatic Compounds: Physical, Stability, Fluorescence, Basicity (20:15) Aromatic Compounds in Biology: Amino Acids, DNA/RNA, Electron Transport Chain (28:14) Conclusion and Outro