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'''
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3.1.10                        '''just solving the system of Ax=0. then can get the kernel of A.
  
3.1.10        just solving the system of Ax=0. then can get the kernel of A.
 
  
3.1.23       T is invertible. From summary 3.1.8
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3.1.23                         '''T is invertible. From summary 3.1.8''''''
  
3.1.34       To describe a subset of R3 as a kernel means to describe it as an intersection of planes.  
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                    By inspection, the given line is the intersection of the planes
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3.1.34 To describe a subset of R3 as a kernel means to describe it as an intersection of planes.  
                    x+y = 0 and  
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              By inspection, the given line is the intersection of the planes
                    2x+z = 0.
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              x+y = 0 and  
                    Then this means the kernel of the linear transformation T.
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              2x+z = 0.
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              Then this means the kernel of the linear transformation T.
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'''

Latest revision as of 11:13, 8 December 2010

hw hints from wang499



3.1.10 just solving the system of Ax=0. then can get the kernel of A.


3.1.23 T is invertible. From summary 3.1.8'


3.1.34 To describe a subset of R3 as a kernel means to describe it as an intersection of planes.

             By inspection, the given line is the intersection of the planes
             x+y = 0 and 
             2x+z = 0.
             Then this means the kernel of the linear transformation T.

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