Atomic chemistry is a core component of the MCAT, essential for understanding molecular behavior and periodic trends. 

In this episode, host Sam Smith explores key concepts in atomic chemistry, including the intricacies of quantum theory, hybridization, and molecular geometry. You'll gain insights into electron configuration, periodic trends, and the role of quantum numbers in describing electrons. Sam also discusses the significance of nuclear decay, from alpha to beta and gamma decay, and how it impacts atomic structure.

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Jump into the conversation:

(00:00) Intro

(01:48) Understanding atomic orbitals and the planetary model

(04:54) Quantum theory and the wave-particle duality of electrons

(06:52) Types of atomic orbitals

(08:29) Electron configuration and its real-world applications

(12:24) Hund’s Rule and the Pauli Exclusion Principle

(17:45) The four quantum numbers

(22:10) Hybridization and bond formation

(26:14) Molecular geometry and its relevance

(29:44) Ionic vs. covalent bonds and electronegativity

(34:48) Periodic table trends: Atomic radius, electronegativity, and ionization energy

(37:49) Nuclear decay: Half-life and types of decay (alpha, beta, gamma)

(44:46) MCAT advice of the day