| 1. | Macroscopically, the nucleus can be described by the liquid drop model.
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| 2. | One of the earliest models for the nucleus was the liquid drop model developed in the 1930s.
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| 3. | In 1939, John Archibald Wheeler and Niels Bohr proposed the liquid drop model of nuclear fission.
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| 4. | One such model for finite nuclei is the liquid drop model, which includes surface effects and Coulomb interactions.
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| 5. | The liquid drop model of the atomic nucleus predicts equal-sized fission products as an outcome of nuclear deformation.
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| 6. | The liquid drop model ( LDM ) assumes that an entire nanoparticle transitions from solid to liquid at a single temperature.
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| 7. | Using the liquid drop model for atomic nuclei, one can derive a semiempirical formula for the binding energy of a nucleus.
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| 8. | Niels Bohr also worked on the principle of liquid drop model and later provided a theory base for the explanation of nuclear fission.
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| 9. | The liquid drop model treated the nucleus as a drop of incompressible nuclear fluid, with nucleons behaving like molecules in a liquid.
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| 10. | In 1939 he teamed up with Bohr to write a series of papers using the liquid drop model to explain the mechanism of fission.
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