| 1. | This equation relating the two radial forces can be understood qualitatively as follows.
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| 2. | The formula for the radial force may also be obtained using Lagrangian mechanics.
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| 3. | Mathematically, radial force balance implies a balance between electric, magnetic and centrifugal forces:
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| 4. | Compression garter springs exert outward radial forces, while extension garter springs exert inward radial forces.
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| 5. | Compression garter springs exert outward radial forces, while extension garter springs exert inward radial forces.
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| 6. | Currents along the top and bottom of the coil produce radial forces that do not rotate the head.
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| 7. | It would have to be down at the atomic or molecular level to not fly apart from the radial forces.
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| 8. | We really want to know the tangential force pulling the blade around, and the radial force acting against the bearings.
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| 9. | This creates a large amount of radial force around the entire bearing, which keeps it from " spinning ".
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| 10. | The radial force ( i . e ., the force acting to compress the shell wall ) can therefore be set equal to zero, so that
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