Structure 1.3 : Electron configurations
Structure 1.3.1 : Qualitatively describe the relationship between colour, wavelength, frequency and energy across the electromagnetic spectrum. Distinguish between a continuous and a line spectrum.
Structure 1.3.2 : Describe the emission spectrum of the hydrogen atom, including the relationships between the lines and energy transitions to the first, second and third energy levels.
Structure 1.3.3 : Deduce the maximum number of electrons that can occupy each energy level.
Structure 1.3.4 : Recognize the shape and orientation of an s atomic orbital and the three p atomic orbitals.
Structure 1.3.5 : Apply the Aufbau principle, Hund’s rule and the Pauli exclusion principle to deduce electron configurations for atoms and ions up to Z = 36.
Structure 1.3.6 : Explain the trends and discontinuities in first ionization energy (IE) across a period and down a group. Calculate the value of the first IE from spectral data that gives the wavelength or frequency of the convergence limit.
Structure 1.3.7 : Deduce the group of an element from its successive ionization data.
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