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- Where ''g'' is the '''acceleration due to gravity''', an object with mass ''m'' near the surface of Earth experiences a downw ...eau International des Poids et Mesures]]</ref> The value of the ''standard acceleration due to gravity'' ''g<sub>n</sub>'' is 9.80665 m s<sup>−2</sup>. This value of ''g<su2 KB (399 words) - 10:12, 14 September 2024
- 156 bytes (23 words) - 00:57, 4 February 2010
- 571 bytes (71 words) - 17:01, 5 July 2024
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- ...]] to 9.80665 [[metre|m]]/[[second|s]]<sup>2</sup>, the standard average [[acceleration due to gravity]] on [[Earth]]'s surface (referred to as '''''g<sub>n</sub>''''').289 bytes (40 words) - 15:02, 3 July 2011
- ...nsp;32.17405 [[foot|ft]]/[[second|s]]<sup>2</sup>), the standard average [[acceleration due to gravity]] on [[Earth]]'s surface (referred to as '''''g<sub>n</sub>''''').374 bytes (50 words) - 10:02, 6 July 2011
- {{r|Acceleration due to gravity}}489 bytes (62 words) - 10:39, 6 July 2011
- {{r|Acceleration due to gravity}}580 bytes (70 words) - 17:00, 26 September 2024
- ...ntial energy by 9.80665 [[joule]]. On those places on Earth where the [[Acceleration due to gravity|gravitational acceleration]] ''g'' happens to be equal to 9.80665 m/s<sup>836 bytes (123 words) - 10:14, 14 September 2024
- {{r|Acceleration due to gravity}}679 bytes (92 words) - 17:00, 25 September 2024
- {{r|Acceleration due to gravity}}631 bytes (80 words) - 12:00, 8 September 2024
- ...nsp;32.17405 [[foot|ft]]/[[second|s]]<sup>2</sup>), the standard average [[acceleration due to gravity]] on [[Earth]]'s surface (referred to as '''''g<sub>n</sub>''''' <re ...in the [[International System of Units]] (SI). Using the standard average acceleration due to gravity, denoted '''''g<sub>n</sub>''''', as being 9.80665 m/s<sup>2</sup> and the3 KB (420 words) - 14:06, 2 February 2023
- {{r|Acceleration due to gravity}}716 bytes (89 words) - 17:00, 17 August 2024
- ...on the body). An example of an acceleration due to a potential is the [[acceleration due to gravity]].4 KB (629 words) - 17:01, 5 July 2024
- Where ''g'' is the '''acceleration due to gravity''', an object with mass ''m'' near the surface of Earth experiences a downw ...eau International des Poids et Mesures]]</ref> The value of the ''standard acceleration due to gravity'' ''g<sub>n</sub>'' is 9.80665 m s<sup>−2</sup>. This value of ''g<su2 KB (399 words) - 10:12, 14 September 2024
- {{r|Acceleration due to gravity}}1 KB (164 words) - 12:01, 23 August 2024
- {{r|Acceleration due to gravity}}637 bytes (77 words) - 12:00, 17 September 2024
- {{r|Acceleration due to gravity}}530 bytes (63 words) - 17:01, 5 July 2024
- {{r|Acceleration due to gravity}}615 bytes (76 words) - 10:15, 14 September 2024
- where <math>g</math> is the [[Acceleration due to gravity|gravitational acceleration]], <math>\rho</math> is the fluid [[Density (che2 KB (348 words) - 10:14, 14 September 2024
- ...f [[mass]] at 9.80665 [[metre|m]]/[[second|s]]<sup>2</sup>, the standard [[acceleration due to gravity]] on [[Earth]]'s surface (referred to as '''''g<sub>n</sub>''''').<ref name3 KB (440 words) - 12:00, 8 September 2024
- ...han one compound a weighted-average mass is used); ''g'' is the constant [[Acceleration due to gravity|gravitational acceleration]]; ''R'' is the [[molar gas constant]]; ''T'' is ...ce '''G''' equal to the total mass ''M'' of air in the pillbox times the [[Acceleration due to gravity|gravitational acceleration]] ''g''. Also the air pressure (''p''+ Δ''7 KB (1,088 words) - 10:14, 14 September 2024
- ...ce]]''. The pound-force is the force of 0.45359237 kilogram subject to a [[Acceleration due to gravity|standard gravity]] of 9.80665 m/s<sup>2</sup>, or approximately 4.448 [[New5 KB (732 words) - 07:33, 20 April 2024
- ...''<sub>c</sub>''g'', where ''g'' ≈ 10 ms<sup>−2</sup> is the [[Acceleration due to gravity|gravitational acceleration]] and ''m''<sub>c</sub> is the mass of the car.11 KB (1,844 words) - 10:14, 14 September 2024