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- ...another celestial body, equal to the product of the object's mass and the acceleration of gravity.188 bytes (30 words) - 19:43, 30 September 2009
- ...mbustion engine) use energy; this energy is mainly used by air resistance, acceleration and deceleration, and rolling resistance; electric cars spend less power th265 bytes (36 words) - 09:24, 22 December 2009
- ...ng barometric pressure and radar altitude of a dropped bomb, or the launch acceleration, conditions in space, and reentry of a ballistic missile trajectory; a key370 bytes (53 words) - 17:02, 22 March 2024
- ...'''acceleration due to gravity'''. The quantity ''g'' has the dimension of acceleration, m s<sup>−2</sup>, hence its name. Equivalently, it can be expressed .... The quantity ''g'' is therefore referred to as the ''local gravitational acceleration''. It is measured as 9.78 m s<sup>−2</sup> at the equater and 9.83 m2 KB (398 words) - 04:58, 15 March 2024
- {{r|Acceleration}}233 bytes (29 words) - 15:07, 16 March 2010
- ...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>' ...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>23 KB (420 words) - 14:06, 2 February 2023
- ...dproto/mechanisms/chpt1.html Introduction to Mechanisms]</ref> The average acceleration of <i>a</i> of an object whose speed changes from <i>v</i><sub><i>i</i></su The instantaneous acceleration vector <b>a</b> of an object whose position at time <i>t</i> is given by <b4 KB (723 words) - 00:50, 1 November 2009
- ...a player's movement across the ice by defining his position, velocity and acceleration."501 bytes (74 words) - 22:14, 29 May 2013
- ...ces due to the gravitational attraction of the nearby larger object. This acceleration is given as: ...pparent weight that is less than their true weight. Note that a downward ''acceleration'' is not the same as a downward ''motion'', and occurs for either (1) an ob5 KB (793 words) - 07:03, 31 July 2022
- {{r|Acceleration due to gravity}}472 bytes (55 words) - 06:11, 21 November 2020
- {{r|Acceleration due to gravity}}374 bytes (44 words) - 17:29, 3 July 2011
- {{r|Acceleration}}351 bytes (42 words) - 16:06, 3 July 2011
- ...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>' ...e force that will accelerate 1 kilogram of mass at 1 m/s<sup>2</sup>, and acceleration is proportional to force, one kilogram-force is therefore equal to 9.806653 KB (436 words) - 17:02, 16 January 2022
- ...as vectors to form a net force or resultant force on the body. A body's [[acceleration]] is proportional to the net force exerted it and, according to [[Newton's ...'m''''', '''''v''''', '''''a''''', and '''''p''''' are the mass, velocity, acceleration, and momentum respectively of the body upon which the force is exerted. Whe3 KB (575 words) - 11:35, 8 May 2021
- ...a, mass expressed in kilograms, force expressed in [[Newton|newtons]], and acceleration expressed in meters per second per second. From the chemist´s Newtonian p4 KB (613 words) - 20:17, 5 June 2011
- {{r|Acceleration}}737 bytes (91 words) - 14:24, 26 September 2011
- {{r|Acceleration}}765 bytes (100 words) - 19:47, 9 January 2021
- {{r|Acceleration}}748 bytes (97 words) - 20:03, 11 January 2010
- {{r|Acceleration}}635 bytes (85 words) - 09:22, 26 March 2011
- ...y 9.80665 [[joule]]. On those places on Earth where the [[gravitational acceleration]] ''g'' happens to be equal to 9.80665 m/s<sup>2</sup>, the geopotential m777 bytes (115 words) - 08:22, 27 August 2009