Theoretical Mechanics IPSP

Jürgen Vollmer, Universität Leipzig

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book:chap2:2.8_cartesian_coordinates [2021/11/08 17:37] abrilbook:chap2:2.8_cartesian_coordinates [2022/04/01 21:13] (current) jv
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 +[[forcestorques|2. Balancing Forces and Torques]]
 +  * [[  2.1 Motivation and Outline| 2.1 Motivation and outline: forces are vectors ]]
 +  * [[  2.2 Sets| 2.2 Sets ]]
 +  * [[  2.3 Groups| 2.3 Groups ]]
 +  * [[  2.4 Fields| 2.4 Fields ]]
 +  * [[  2.5 Vector spaces| 2.5 Vector spaces ]]
 +  * [[  2.6 Physics application balancing forces| 2.6.  Physics application: balancing forces]]
 +  * [[  2.7 The inner product | 2.7 The inner product]]
 +  * ** 2.8 Cartesian coordinates **
 +  * [[  2.9 Cross products --- torques| 2.9 Cross products — torques ]]
 +  * [[ 2.10 Worked example Calder's mobiles| 2.10 Worked example: Calder's mobiles ]]
 +  * [[ 2.11 Problems| 2.11 Problems ]]
 +  * [[ 2.12 Further reading| 2.12 Further reading ]]
 +
 +----
 +
 ==== 2.8 Cartesian coordinates ===== ==== 2.8 Cartesian coordinates =====
  
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 <WRAP 120pt left #fig_vector-2DcoordinatesE> <WRAP 120pt left #fig_vector-2DcoordinatesE>
-{{vector-2Dcoordinates_E.png}} Figure 2.14: Representation of the vector $\mathbf c$ in terms of the orthogonal unit vectors $(\mathbf e_1, \mathbf e_2)$.+{{vector-2Dcoordinates_E.png}}  
 + 
 +Figure 2.14: Representation of the vector $\mathbf c$ in terms of the orthogonal unit vectors $(\mathbf e_1, \mathbf e_2)$.
 </WRAP> </WRAP>
  
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 </WRAP> </WRAP>
  
-<WRAP 120pt left #fig_vector-2DcoordinatesAlt> +<WRAP 200pt left #fig_vector-2DcoordinatesAlt> 
-{{vector-2Dcoordinates2.png}} Representation of the vector $\mathbf c$ of [[#fig_vector-2DcoordinatesE |Figure 2.14]] in terms of the bases $(\mathbf e_1, \mathbf e_2)$ and $(\mathbf n_1, \mathbf n_2)$.+{{vector-2Dcoordinates2.png}}  
 + 
 +Representation of the vector $\mathbf c$ of [[#fig_vector-2DcoordinatesE |Figure 2.14]] in terms of the bases $(\mathbf e_1, \mathbf e_2)$ and $(\mathbf n_1, \mathbf n_2)$.
 </WRAP> </WRAP>
  
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 <wrap #quest_forces-2> Problem 2.20: ** Geometric and algebraic form of the scalar product ** </wrap> <wrap #quest_forces-2> Problem 2.20: ** Geometric and algebraic form of the scalar product ** </wrap>
  
-<WRAP 120pt left>+<WRAP 200pt left>
 {{02_scalarProduct.png}} {{02_scalarProduct.png}}
 </WRAP> </WRAP>
book/chap2/2.8_cartesian_coordinates.1636389452.txt.gz · Last modified: 2021/11/08 17:37 by abril