| 1. | Applying an external magnetic field gradient allows exerting a force on the nanoparticles.
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| 2. | This creates a high field gradient around the smaller, positively charged electrode.
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| 3. | The gravitational field gradient is given by the divergence of the gravitational field.
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| 4. | Unlike T 2, T 2 * is influenced by magnetic field gradient irregularities.
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| 5. | Examples of inhomogeneous effects include a magnetic field gradient and a distribution of chemical shifts.
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| 6. | Various strategies are used, from guard rings to overlaps of metallization to spread out the field gradient.
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| 7. | Some authors suggest that these abilities may be explained by postulating human sensitivity to small magnetic field gradient changes.
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| 8. | Particles suspended in a liquid will be susceptible to the electrical field gradient, this is known as dielectrophoresis.
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| 9. | Due to dipole interaction with the electric field gradient the particles are attracted to the gap between the electrodes.
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| 10. | The first derivatives of the field, or the second derivatives of the potential, is the electric field gradient.
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