A.\[\left[ {\vec u,\overrightarrow {u'} } \right] = \vec 0\]
B. \[\left[ {\vec u,\overrightarrow {u'} } \right] = \left[ {\vec u,\overrightarrow {MM'} } \right]\]
C. \[\left[ {\vec u,\overrightarrow {u'} } \right] = \left[ {\vec u,\overrightarrow {MM'} } \right] = \overrightarrow 0 \]
D. \[\left[ {\vec u,\overrightarrow {u'} } \right] \ne \left[ {\vec u,\overrightarrow {MM'} } \right]\]
A.Song song.
B.Trùng nhau.
C.Cắt nhau.
D.Chéo nhau.
A.\(\left\{ {\begin{array}{*{20}{c}}{\left[ {\vec u,\overrightarrow {u'} } \right] \ne \vec 0}\\{\left[ {\vec u,\overrightarrow {u'} } \right]\overrightarrow {MM'} = 0}\end{array}} \right.\)
B. \[\left[ {\vec u,\overrightarrow {u'} } \right] \ne \vec 0\]
C. \[\left[ {\vec u,\overrightarrow {u'} } \right]\overrightarrow {MM'} = 0\]
D. \[\left[ {\vec u,\overrightarrow {u'} } \right] = \vec 0\]
A.d//d′
B.d≡d′
C.d cắt d′
D.d chéo d′
A.Song song.
B.Trùng nhau.
C.Cắt nhau.
D.Chéo nhau.
A.\({d_1}:\left\{ {\begin{array}{*{20}{c}}{x = 3t}\\{y = 1 + t}\\{z = 5t}\end{array}} \right.\)
B. \({d_2}:\left\{ {\begin{array}{*{20}{c}}{x = 2}\\{y = 2 + t}\\{z = 1 + t}\end{array}} \right.\)
C. \[{d_3}:\frac{{x - 2}}{3} = \frac{y}{2} = \frac{{z - 1}}{{ - 5}}\]
D. \[{d_4}:\frac{{x + 2}}{2} = \frac{y}{{ - 1}} = \frac{{z + 1}}{2}\]
A.\[d\left( {A,d'} \right) = \frac{{\left| {\left[ {\overrightarrow {AM'} ,\overrightarrow {u'} } \right]} \right|}}{{\left| {\overrightarrow {u'} } \right|}}\]
B. \[d\left( {A,d'} \right) = \frac{{\left| {\left[ {\overrightarrow {AM'} ,\overrightarrow {u'} } \right]} \right|}}{{\overrightarrow {u'} }}\]
C. \[d\left( {A,d'} \right) = \frac{{\left[ {\overrightarrow {AM'} ,\overrightarrow {u'} } \right]}}{{\overrightarrow {u'} }}\]
D. \[d\left( {A,d'} \right) = \frac{{\left| {\overrightarrow {AM'} .\overrightarrow {u'} } \right|}}{{\left| {\overrightarrow {u'} } \right|}}\]
A.\(\sqrt 2 \)
B. \(\sqrt 3 \)
C. \[2\sqrt 3 \]
D. \[\frac{5}{{\sqrt {17} }}\]
A.\[3\sqrt {19} \]
B. \[\frac{{3\sqrt {19} }}{{13}}\]
C. \[\sqrt 6 \]
D. \[\frac{{\sqrt {66} }}{{11}}\]
A.\[d\left( {{\rm{\Delta }},{\rm{\Delta '}}} \right) = \frac{{\left| {\left[ {\vec u,\overrightarrow {u'} } \right].\overrightarrow {MM'} } \right|}}{{\left| {\left[ {\vec u,\overrightarrow {u'} } \right]} \right|}}\]
B. \[d\left( {{\rm{\Delta }},{\rm{\Delta '}}} \right) = \frac{{\left| {\left[ {\overrightarrow {MM'} ,\overrightarrow {u'} } \right].\vec u} \right|}}{{\left| {\left[ {\vec u,\overrightarrow {u'} } \right]} \right|}}\]
C. \[d\left( {{\rm{\Delta }},{\rm{\Delta '}}} \right) = \frac{{\left| {\left[ {\vec u,\overrightarrow {u'} } \right].\overrightarrow {MM'} } \right|}}{{\left| {\left[ {\vec u,\overrightarrow {MM'} } \right]} \right|}}\]
D. \[d\left( {{\rm{\Delta }},{\rm{\Delta '}}} \right) = \frac{{\left| {\left[ {\vec u,\overrightarrow {u'} } \right].\overrightarrow {MM'} } \right|}}{{\left| {\overrightarrow {MM'} } \right|}}\]
A.9
B.3
C.\(\frac{1}{3}\)
D.1
A.\[\frac{{x - 1}}{1} = \frac{{y - 2}}{{ - 3}} = \frac{{z - 3}}{{ - 5}}\]
B. \[\frac{{x - 1}}{{ - 1}} = \frac{{y - 2}}{{ - 3}} = \frac{{z - 3}}{{ - 5}}\]
C. \[\frac{{x - 1}}{1} = \frac{{y - 2}}{3} = \frac{{z - 3}}{5}\]
D. \[\frac{{x - 1}}{1} = \frac{{y - 2}}{3} = \frac{{z - 3}}{{ - 5}}\]
A.\[\cos \varphi = \frac{{\left| {\vec u.\overrightarrow {u'} } \right|}}{{\left| {\vec u} \right|.\left| {\overrightarrow {u'} } \right|}}\]
B. \[\cos \varphi = \frac{{\vec u.\overrightarrow {u'} }}{{\left| {\vec u} \right|.\left| {\overrightarrow {u'} } \right|}}\]
C. \[\cos \varphi = - \frac{{\vec u.\overrightarrow {u'} }}{{\left| {\vec u} \right|.\left| {\overrightarrow {u'} } \right|}}\]
D. \[\cos \varphi = - \frac{{\left| {\vec u.\overrightarrow {u'} } \right|}}{{\left| {\vec u} \right|.\left| {\overrightarrow {u'} } \right|}}\]
A.\[\frac{1}{{\sqrt 2 }}\]
B. \[\frac{{\sqrt 2 }}{4}\]
C. \(\frac{1}{2}\)
D. \[\frac{3}{{\sqrt 2 }}\]
A.\(\left[ {\begin{array}{*{20}{c}}{m = 4}\\{m = - 2}\end{array}} \right.\)
B. \(\left[ {\begin{array}{*{20}{c}}{m = - 4}\\{m = 2}\end{array}} \right.\)
C. \(\left[ {\begin{array}{*{20}{c}}{m = 4}\\{m = 2}\end{array}} \right.\)
D. \(\left[ {\begin{array}{*{20}{c}}{m = - 4}\\{m = - 2}\end{array}} \right.\)
A.N(4;0;−1)
B.M(1;−2;3) .
C.P(7;2;1) .
D.Q(7;2;3)
A.\[\frac{{x - 1}}{5} = \frac{{y - 2}}{{ - 12}} = \frac{{z - 3}}{1}\]
B. \[\frac{{x - 1}}{{ - 5}} = \frac{{y - 2}}{{12}} = \frac{{z - 3}}{1}\]
C. \[\frac{{x - 1}}{5} = \frac{{y - 2}}{{12}} = \frac{{z - 3}}{{ - 1}}\]
D. \[\frac{{x - 1}}{5} = \frac{{y - 2}}{{12}} = \frac{{z - 3}}{1}\]
A.\[\sqrt {29} \]
B. 6
C. 5
D. \[\frac{{\sqrt {34} }}{9}\]
A.(1;1;−3)
B.(1;−1;−1)
C.(1;2;−4)
D. (2;−1;−3)
A.\(\left\{ {\begin{array}{*{20}{c}}{x = 1 + 2t}\\{y = 1 - t}\\{z = - 2 - 2t}\end{array}} \right.\)
B. \(\left\{ {\begin{array}{*{20}{c}}{x = 1 + 2t}\\{y = 1 + t}\\{z = - 2 - 2t}\end{array}} \right.\)
C. \(\left\{ {\begin{array}{*{20}{c}}{x = 2 + t}\\{y = 1 + t}\\{z = 2 - 2t}\end{array}} \right.\)
D. \(\left\{ {\begin{array}{*{20}{c}}{x = 2 + t}\\{y = 1 + t}\\{z = - 2 - 2t}\end{array}} \right.\)
A.\(\Delta :\left\{ {\begin{array}{*{20}{c}}{x = 0}\\{y = - 3t}\\{z = - t}\end{array}} \right.\)
B. \(\Delta :\left\{ {\begin{array}{*{20}{c}}{x = t}\\{y = - 3t}\\{z = t}\end{array}} \right.\)
C. \(\Delta :\left\{ {\begin{array}{*{20}{c}}{x = t}\\{y = - 3t}\\{z = - t}\end{array}} \right.\)
D. \(\Delta :\left\{ {\begin{array}{*{20}{c}}{x = 0}\\{y = - 3t}\\{z = t}\end{array}} \right.\)
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