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- {{r|Kilogram}} {{r|kilogram-force}}539 bytes (67 words) - 02:39, 6 July 2011
- {{r|Kilogram}} {{r|Kilogram-force}}419 bytes (54 words) - 18:07, 3 July 2011
- {{r|Kilogram-force}} {{r|Kilogram-force per square centimeter}}504 bytes (64 words) - 16:51, 3 July 2011
- Concentration unit, [[mole (unit)|moles]]/[[kilogram]], useful for measuring solvent properties.132 bytes (14 words) - 15:31, 20 June 2009
- {{r|Kilogram}} {{r|Kilogram-force per square centimeter}}467 bytes (59 words) - 16:23, 3 July 2011
- {{r|Kilogram-force}} {{r|Kilogram-force per square centimeter}}533 bytes (68 words) - 16:34, 4 July 2011
- {{r|Kilogram}} {{r|Kilogram-force}}628 bytes (86 words) - 15:15, 7 July 2011
- {{r|Kilogram}} {{r|Kilogram-force per square centimeter}}589 bytes (75 words) - 13:21, 8 July 2011
- {{r|Kilogram-force}} {{r|Kilogram-force per square centimeter}}547 bytes (71 words) - 17:03, 3 July 2011
- ...units in which the unit of length is the [[meter]], the unit of mass the [[kilogram]], and the unit of time the [[second]]; this system is also referred to as ...was created by French revolutionaries around 1790 (see the article on the kilogram for more details about the history) and ultimately developed into the [[Int707 bytes (114 words) - 20:53, 26 June 2009
- The increment in altitude that increases the gravitational energy of one kilogram of mass on Earth by 9.80665 joule.153 bytes (21 words) - 08:27, 27 August 2009
- ...field]] of the Earth is the vertical distance over which one must lift one kilogram of mass to increase its potential energy by 9.80665 [[joule]]. On those p ...h altitude, with the consequence that the same amount of energy can move a kilogram over larger distances.777 bytes (115 words) - 08:22, 27 August 2009
- ...face (referred to as '''''g<sub>n</sub>''''').<ref name=NIST-gravity/> The kilogram-force is often referred to as the '''''kilopond (kp)'''''.<ref name=kp grou ...mass at 1 m/s<sup>2</sup>, and acceleration is proportional to force, one kilogram-force is therefore equal to 9.80665 [[newton (unit)|newtons]].<ref name=NIS3 KB (436 words) - 17:02, 16 January 2022
- The kilogram is the basic unit of mass in the International System of Units (SI, metric132 bytes (20 words) - 11:08, 16 June 2008
- ...lly calculated as the energy used to burn 3 to 4 milliliters of oxygen per kilogram of body weight per minute.182 bytes (26 words) - 23:06, 7 September 2009
- A unit of [[force]] which will [[acceleration|accelerate]] 1 [[kilogram]] of [[mass]] to 9.80665 [[metre|m]]/[[second|s]]<sup>2</sup>, the standard289 bytes (40 words) - 15:02, 3 July 2011
- ...em of units in which the unit of length is the meter, the unit of mass the kilogram, and the unit of time the second.177 bytes (32 words) - 03:38, 27 July 2008
- ...Newton, equal to the amount of force required to accelerate a mass of one kilogram at a rate of one metre per second per second.209 bytes (36 words) - 04:17, 4 September 2009
- ...ram Prototype.jpg|right|207px|The U.S. copy of the International Prototype Kilogram.}} ...oday being the ''International avoirdupois pound'' of exactly 0.45359237 [[kilogram]].<ref>The word avoirdupois is derived from the French "avoir du poids" mea5 KB (732 words) - 07:33, 20 April 2024
- ...t equal to the amount of heat required to raise the [[temperature]] of 1 [[kilogram]] of [[water]] by 1[[Celsius|°C]] at 1 [[Atmosphere (unit)|atmosphere]] of234 bytes (32 words) - 15:13, 14 August 2009