science: Advances in Chemistry

Knowledge of the structure of matter enabled chemists to synthesize a sweeping variety of substances, especially complex organic substances with important roles in life processes or with technological applications. Radioactive isotopes have been used as tracers in complicated chemical and biochemical reactions and have also found application in geological dating. Chemists and physicists have cooperated to create many new chemical elements, extending the periodic table beyond the naturally occurring elements.

Sections in this article:

• Introduction
• Promise and Problems of Modern Science
• Modern Science and Technology
• Astronomy beyond the Visual Spectrum
• The Abstraction of Mathematics
• Biology Becomes an Interdisciplinary Science
• Advances in Chemistry
• Quantum Theory and the Theory of Relativity
• The Impact of Elementary Particles
• Revolutions in Modern Science
• Science and the Industrial Revolution
• New Ideas in Biology
• Birth of Modern Geology
• Advances in Astronomy
• Innovations in Chemistry
• The Evolution of Mathematics and Physics
• The Age of Classical Science
• The Impact of Sir Isaac Newton
• Improved Communication of Scientific Knowledge
• The Rejection of Traditional Paradigms
• The Scientific Revolution
• The Craft Tradition and Early Empiricism in Europe
• Muslim Preservation of Learning
• Scientific Progress in China and India
• Influence of the Alexandrian Schools
• Early Greek Contributions to Science
• Practical Applications in the Ancient Middle East
• The Beginnings of Science
• Branches of Specialization
• Role of Measurement and Experiment
• The Scientific Method
• Bibliography

The Columbia Electronic Encyclopedia, 6th ed. Copyright © 2024, Columbia University Press. All rights reserved.

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