| 1. | The polar radius is about 84 % of the radius along the equator.
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| 2. | The equatorial radius is about 30.7 % greater than the polar radius.
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| 3. | This is causing an equatorial bulge that is 5 % larger than the polar radius.
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| 4. | This is creating an equatorial bulge that is 7 % wider than the polar radius.
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| 5. | For an oblate ellipsoid, the polar radius of curvature r _ p is larger than the equatorial
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| 6. | Refer to the WGS-84 ellipsoid if a more precise value for its polar radius is needed.
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| 7. | The difference correspond to the polar radius being approximately 0.3 % shorter than the equator radius.
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| 8. | This is creating an equatorial bulge that is 12 % large than the star's polar radius.
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| 9. | This is a oblate shape with an equatorial bulge that is 25 % larger than the polar radius.
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| 10. | This is an oblate shape, with an equatorial bulge that is 11 % larger than the polar radius.
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