| 1. | The Meissner effect can be used to demonstrate superconducting magnetic levitation.
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| 2. | Due to Meissner effect the magnetic induction inside the superconductor is zero.
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| 3. | This is due to the Meissner effect and flux pinning.
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| 4. | This is called the Meissner effect, and is a defining characteristic of superconductivity.
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| 5. | The Meissner effect was explained by the brothers free energy in a superconductor is minimized provided
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| 6. | :: See the article Meissner effect.
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| 7. | Ballistic conduction differs from superconductivity due to the absence of the Meissner effect in the material.
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| 8. | The Meissner effect is so strong that a magnet can actually be levitated over a superconductive material.
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| 9. | The Meissner effect is distinct from this� it is the spontaneous expulsion which occurs during transition to superconductivity.
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| 10. | The Meissner effect was given a phenomenological explanation by the brothers free energy in a superconductor is minimized provided
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