| 1. | When the electrons jump, they emit photons of light.
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| 2. | The phosphor atoms are stimulated and electrons jump to higher energy levels.
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| 3. | :: : Well, electrons jump from one orbital to another without going in between.
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| 4. | When light of suitable wavelength falls on atoms, their electrons jump to a higher energy state.
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| 5. | The junction is thin, and the electric field is large enough that electrons jump the energy gap.
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| 6. | The emitter apparatus consists of a thin slit across which electrons jump when powered with high-voltage gradients.
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| 7. | When an extra amount of energy is absorbed, the electrons jump into higher energy orbital patterns surround their nucleus.
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| 8. | The hole moves about by having electrons jump from neighbor regions and filling the hole and living a vacancy behind.
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| 9. | The larger the energy separation of the states between which the electron jumps, the shorter the wavelength of the photon emitted.
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| 10. | By exciting the atom, the electron jumps to another orbit, and in this jump it emits energy ( photon ).
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