Talk:Barycentre: Difference between revisions

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Definition: The centre of mass of a body or system of particles, a weighted average where certain forces may be taken to act. [d] [e]

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Centre of mass != Centre of gravity in physics

I am not sure about the exact definition (or usage) of either of the terms in geometry (Euklidean or otherwise) but in physics, they describe two slightly but importantly different concepts: The centre of mass is always, as described in the current version of the page,

{\bar {\mathbf {x} }}_{m}=\left(\sum _{i=1}^{n}m_{i}\right){\bar {\mathbf {x} }}=\sum _{i=1}^{n}m_{i}\mathbf {x} _{i}.\,

Similarly, the centre of gravity can be expressed as an "average" of the forces $F_{i}$ involved:

{\bar {\mathbf {x} }}_{F}=\left(\sum _{i=1}^{n}F_{i}\right){\bar {\mathbf {x} }}=\sum _{i=1}^{n}m_{i}a_{i}\mathbf {x} _{i}.\,

Hence, ${\bar {\mathbf {x} }}_{m}$ and ${\bar {\mathbf {x} }}_{F}$ are only identical if the gravitational field (as expressed in terms of the acceleration $a_{i}$ ) is constant for all $\mathbf {x} _{i}$ , such that $F_{i}=am_{i}$ . Naturally, ${\bar {\mathbf {x} }}_{F}$ , not ${\bar {\mathbf {x} }}_{m}$ , is the point on which forces "may be deemed to act".

However, I am not sure whether these distinctions should be made in the present (geometry-focused) article because I do not remember having seen the use of "barycentre" (or centroid, for that matter) in either of these two physical contexts. --Daniel Mietchen 09:53, 27 November 2008 (UTC)

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+== Centre of mass != Centre of gravity in physics ==
+I am not sure about the ''exact'' definition (or usage) of either of the terms in geometry (Euklidean or otherwise) but in physics, they describe two slightly but importantly different concepts: The centre of mass is always, as described in the current version of the page,
+:<math> \bar\mathbf{x}_m = \left( \sum_{i=1}^n m_i \right) \bar\mathbf{x} = \sum_{i=1}^n m_i \mathbf{x}_i . \,</math>
+Similarly, the centre of gravity can be expressed as an "average" of the forces <math> F_i </math> involved:
+:<math> \bar\mathbf{x}_F = \left( \sum_{i=1}^n F_i \right) \bar\mathbf{x} = \sum_{i=1}^n m_i a_i \mathbf{x}_i . \,</math>
+Hence, <math> \bar\mathbf{x}_m </math> and <math> \bar\mathbf{x}_F </math> are only identical if the gravitational field (as expressed in terms of the acceleration <math> a_i </math>) is constant for all <math> \mathbf{x}_i </math>, such that <math> F_i = a m_i </math>. Naturally, <math> \bar\mathbf{x}_F </math>, not <math> \bar\mathbf{x}_m </math>, is the point on which forces "may be deemed to act".
+However, I am not sure whether these distinctions should be made in the present (geometry-focused) article because I do not remember having seen the use of "barycentre" (or centroid, for that matter) in either of these two physical contexts. --[[User:Daniel Mietchen|Daniel Mietchen]] 09:53, 27 November 2008 (UTC)

Talk:Barycentre: Difference between revisions

Revision as of 03:53, 27 November 2008

Centre of mass != Centre of gravity in physics

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