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<center><b><br>7 动力学普遍方程</b></center>    
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          <td width="16%" align="center">达朗伯原理</td>   
          <td width="5%" align="center" rowspan="2"><img border="0" src="pic2/3072_293.GIF" width="13" height="34"></td>   
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          <td width="22%" align="center" rowspan="2">动力学普遍方程</td>   
          <td width="10%" align="center" rowspan="2"><img border="0" src="pic2/3072_294.GIF" width="27" height="33"></td>   
          <td width="20%" align="center" rowspan="2">拉格朗日方程</td>   
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          <td width="16%" align="center">虚位移原理</td>   
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          <td width="52%" align="center" colspan="3">分析力学的基础</td>   
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    <td>拉格朗日是分析力学的创始人。</td>   
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    <td><font color="#FF0000">动力学普遍方程的思想是：&nbsp;</font> 对n个质点的质点系：</td>   
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          <td>&nbsp; 或：&nbsp;&nbsp;</td>   
          <td><img border="0" src="pic2/3072_297.GIF" width="435" height="54"></td>   
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          <td>&nbsp; 或：</td>   
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          <td>即，对动力学问题，给系统加上惯性力，再应用虚位移原理即可解题。</td>   
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    <td>注：①上式中∑不一定指质点，而一般可理解为力或力偶个数；</td>   
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          <td>        ②当质点系静止时（静平衡），</td>   
          <td><img border="0" src="pic2/3072_299.GIF" width="83" height="32"></td>   
          <td>                 ，退化为虚功方程：</td>   
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    <td><b>解题步骤:</b></td>   
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    <td>(一)研究整体（若求反力，需先去其约束，画上约束力）；<br>   
      (二)画主动力，并加惯性力（偶），画运动图；给系统虚位移；<br>   
      (三)列解方程。</td>   
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