| 11. | The fluid displaced has a weight " mg " } }, where is acceleration due to gravity.
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| 12. | Mass is constant everywhere, while weight is your mass times the acceleration due to gravity, "'g " '.
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| 13. | Acceleration due to gravity is g.
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| 14. | Measurements of the acceleration due to gravity at the equator must also take into account the planet's rotation.
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| 15. | The ball's acceleration towards the ground is the acceleration due to gravity minus the acceleration due to air resistance.
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| 16. | For example, everything floating around in the international space station will undergo roughly the same acceleration due to gravity.
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| 17. | Where g is the acceleration due to gravity, and \ gamma is the unit weight of the overlying layer.
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| 18. | As such it measures down to DC, hence measures the acceleration due to gravity, even if the accelerometer is stationary.
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| 19. | :Correct me if I'm wrong, but isn't an object's acceleration due to gravity a consequence of its increase in energy?
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| 20. | Be sure you have your signs correct � " if up is positive, acceleration due to gravity will be negative.
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