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  • [SCI] Blackbody Radiation & Planck's Law

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  • [SCI] Atomic Structure & Spectroscopy
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Description:Co-evolution of Science & Technology graph
# [SCI] Atomic Structure & Spectroscopy
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**Atomic Structure & Spectroscopy** is the experimental and theoretical study of atomic energy levels, electron configurations, and spectral emission/absorption lines, leading to the Bohr model (1913) and ultimately to quantum mechanics.
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## Overview
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Kirchhoff and Bunsen (1859) showed that each element has a unique spectral fingerprint. Balmer (1885) found an empirical formula for hydrogen lines. Ernest Rutherford's gold foil experiment (1911) revealed the nuclear atom. Niels Bohr (1913) combined Rutherford's nuclear model with Planck's quantisation to explain the hydrogen spectrum, proposing that electrons occupy discrete orbits. Bohr's model, though later superseded by quantum mechanics, introduced the concept of quantised energy levels.
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Spectroscopy became an essential analytical tool across chemistry, astrophysics, materials science, and medical diagnostics.
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## Key Figures & Recognition
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- **Ernest Rutherford** (1871–1937): Nuclear model of the atom. **Nobel Prize in Chemistry 1908**.
- **Niels Bohr** (1885–1962): Bohr model. **Nobel Prize in Physics 1922**.
- **Arnold Sommerfeld** (1868–1951): Extended Bohr model; trained more Nobel laureates than anyone.
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## Seminal Papers
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- Rutherford, E. "The Scattering of α and β Particles by Matter." *Phil. Mag.* 21 (1911).
- Bohr, N. "On the Constitution of Atoms and Molecules." *Phil. Mag.* 26 (1913).
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# Parents
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* [SCI] Blackbody Radiation & Planck's Law⏎
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