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\[ {}\left (5 x +y-7\right ) y^{\prime } = 3 x +3 y+3 \] |
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\[ {}x y^{\prime }+y-\frac {y^{2}}{x^{\frac {3}{2}}} = 0 \] |
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\[ {}\left (2 \sin \left (y\right )-x \right ) y^{\prime } = \tan \left (y\right ) \] |
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\[ {}\left (2 \sin \left (y\right )-x \right ) y^{\prime } = \tan \left (y\right ) \] |
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\[ {}y^{\prime } = 2 x y \] |
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\[ {}y^{\prime } = \frac {y^{2}}{x^{2}+1} \] |
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\[ {}{\mathrm e}^{x +y} y^{\prime }-1 = 0 \] |
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\[ {}y^{\prime } = \frac {y}{x \ln \left (x \right )} \] |
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\[ {}y-\left (-2+x \right ) y^{\prime } = 0 \] |
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\[ {}y^{\prime } = \frac {2 x \left (y-1\right )}{x^{2}+3} \] |
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\[ {}y-x y^{\prime } = 3-2 x^{2} y^{\prime } \] |
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\[ {}y^{\prime } = \frac {\cos \left (x -y\right )}{\sin \left (x \right ) \sin \left (y\right )}-1 \] |
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\[ {}y^{\prime } = \frac {x \left (y^{2}-1\right )}{2 \left (-2+x \right ) \left (-1+x \right )} \] |
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\[ {}y^{\prime } = \frac {x^{2} y-32}{-x^{2}+16}+32 \] |
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\[ {}\left (x -a \right ) \left (x -b \right ) y^{\prime }-y+c = 0 \] |
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\[ {}\left (x^{2}+1\right ) y^{\prime }+y^{2} = -1 \] |
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\[ {}\left (-x^{2}+1\right ) y^{\prime }+x y = a x \] |
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\[ {}y^{\prime } = 1-\frac {\sin \left (x +y\right )}{\sin \left (y\right ) \cos \left (x \right )} \] |
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\[ {}y^{\prime } = y^{3} \sin \left (x \right ) \] |
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\[ {}y^{\prime }-y = {\mathrm e}^{2 x} \] |
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\[ {}x^{2} y^{\prime }-4 x y = x^{7} \sin \left (x \right ) \] |
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\[ {}2 x y+y^{\prime } = 2 x^{3} \] |
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\[ {}y^{\prime }+\frac {2 x y}{x^{2}+1} = 4 x \] |
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\[ {}y^{\prime }+\frac {2 x y}{x^{2}+1} = \frac {4}{\left (x^{2}+1\right )^{2}} \] |
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\[ {}2 \cos \left (x \right )^{2} y^{\prime }+y \sin \left (2 x \right ) = 4 \cos \left (x \right )^{4} \] |
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\[ {}y^{\prime }+\frac {y}{x \ln \left (x \right )} = 9 x^{2} \] |
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\[ {}y^{\prime }-y \tan \left (x \right ) = 8 \sin \left (x \right )^{3} \] |
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\[ {}t x^{\prime }+2 x = 4 \,{\mathrm e}^{t} \] |
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\[ {}y^{\prime } = \sin \left (x \right ) \left (y \sec \left (x \right )-2\right ) \] |
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\[ {}1-y \sin \left (x \right )-\cos \left (x \right ) y^{\prime } = 0 \] |
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\[ {}y^{\prime }-\frac {y}{x} = 2 x^{2} \ln \left (x \right ) \] |
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\[ {}y^{\prime }+\alpha y = {\mathrm e}^{\beta x} \] |
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\[ {}y^{\prime }+\frac {m}{x} = \ln \left (x \right ) \] |
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\[ {}\left (3 x -y\right ) y^{\prime } = 3 y \] |
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\[ {}y^{\prime } = \frac {\left (x +y\right )^{2}}{2 x^{2}} \] |
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\[ {}\sin \left (\frac {y}{x}\right ) \left (-y+x y^{\prime }\right ) = x \cos \left (\frac {y}{x}\right ) \] |
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\[ {}x y^{\prime } = \sqrt {16 x^{2}-y^{2}}+y \] |
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\[ {}-y+x y^{\prime } = \sqrt {9 x^{2}+y^{2}} \] |
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\[ {}x \left (x^{2}-y^{2}\right )-x \left (x^{2}+y^{2}\right ) y^{\prime } = 0 \] |
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\[ {}x y^{\prime }+y \ln \left (x \right ) = y \ln \left (y\right ) \] |
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\[ {}y^{\prime } = \frac {y^{2}+2 x y-2 x^{2}}{x^{2}-x y+y^{2}} \] |
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\[ {}2 x y y^{\prime }-x^{2} {\mathrm e}^{-\frac {y^{2}}{x^{2}}}-2 y^{2} = 0 \] |
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\[ {}x^{2} y^{\prime } = y^{2}+3 x y+x^{2} \] |
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\[ {}y y^{\prime } = \sqrt {x^{2}+y^{2}}-x \] |
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\[ {}2 x \left (y+2 x \right ) y^{\prime } = y \left (4 x -y\right ) \] |
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\[ {}x y^{\prime } = x \tan \left (\frac {y}{x}\right )+y \] |
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\[ {}y^{\prime } = \frac {x \sqrt {x^{2}+y^{2}}+y^{2}}{x y} \] |
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\[ {}y^{\prime } = -y^{2} \] |
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\[ {}y^{\prime } = \frac {y}{2 x} \] |
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\[ {}y^{\prime } = \frac {{\mathrm e}^{x}-\sin \left (y\right )}{x \cos \left (y\right )} \] |
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\[ {}y^{\prime } = \frac {1-y^{2}}{2 x y+2} \] |
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\[ {}y^{\prime } = \frac {\left (1-{\mathrm e}^{x y} y\right ) {\mathrm e}^{-x y}}{x} \] |
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\[ {}y^{\prime } = \frac {x^{2} \left (1-y^{2}\right )+y \,{\mathrm e}^{\frac {y}{x}}}{x \left ({\mathrm e}^{\frac {y}{x}}+2 x^{2} y\right )} \] |
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\[ {}y^{\prime } = \frac {\cos \left (x \right )-2 x y^{2}}{2 x^{2} y} \] |
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\[ {}y^{\prime } = \sin \left (x \right ) \] |
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\[ {}y^{\prime } = \frac {1}{x^{\frac {2}{3}}} \] |
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\[ {}y^{\prime } = x^{2} \ln \left (x \right ) \] |
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\[ {}y^{\prime } = 2 x y \] |
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\[ {}y^{\prime } = \frac {y^{2}}{x^{2}+1} \] |
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\[ {}{\mathrm e}^{x +y} y^{\prime }-1 = 0 \] |
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\[ {}y^{\prime } = \frac {y}{x \ln \left (x \right )} \] |
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\[ {}y-\left (-1+x \right ) y^{\prime } = 0 \] |
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\[ {}y^{\prime } = \frac {2 x \left (y-1\right )}{x^{2}+3} \] |
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\[ {}y-x y^{\prime } = 3-2 x^{2} y^{\prime } \] |
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\[ {}y^{\prime } = \frac {\cos \left (x -y\right )}{\sin \left (x \right ) \sin \left (y\right )}-1 \] |
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\[ {}y^{\prime } = \frac {x \left (y^{2}-1\right )}{2 \left (-2+x \right ) \left (-1+x \right )} \] |
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\[ {}y^{\prime } = \frac {x^{2} y-32}{-x^{2}+16}+2 \] |
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\[ {}\left (x -a \right ) \left (x -b \right ) y^{\prime }-y+c = 0 \] |
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\[ {}\left (x^{2}+1\right ) y^{\prime }+y^{2} = -1 \] |
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\[ {}\left (-x^{2}+1\right ) y^{\prime }+x y = a x \] |
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\[ {}y^{\prime } = 1-\frac {\sin \left (x +y\right )}{\sin \left (y\right ) \cos \left (x \right )} \] |
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\[ {}y^{\prime } = y^{3} \sin \left (x \right ) \] |
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\[ {}y^{\prime } = \frac {2 \sqrt {y-1}}{3} \] |
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\[ {}m v^{\prime } = m g -k v^{2} \] |
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\[ {}y^{\prime }+y = 4 \,{\mathrm e}^{x} \] |
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\[ {}y^{\prime }+\frac {2 y}{x} = 5 x^{2} \] |
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\[ {}x^{2} y^{\prime }-4 x y = x^{7} \sin \left (x \right ) \] |
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\[ {}2 x y+y^{\prime } = 2 x^{3} \] |
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\[ {}y^{\prime }+\frac {2 x y}{-x^{2}+1} = 4 x \] |
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\[ {}y^{\prime }+\frac {2 x y}{x^{2}+1} = \frac {4}{\left (x^{2}+1\right )^{2}} \] |
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\[ {}2 \cos \left (x \right )^{2} y^{\prime }+y \sin \left (2 x \right ) = 4 \cos \left (x \right )^{4} \] |
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\[ {}y^{\prime }+\frac {y}{x \ln \left (x \right )} = 9 x^{2} \] |
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\[ {}y^{\prime }-y \tan \left (x \right ) = 8 \sin \left (x \right )^{3} \] |
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\[ {}t x^{\prime }+2 x = 4 \,{\mathrm e}^{t} \] |
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\[ {}y^{\prime } = \sin \left (x \right ) \left (y \sec \left (x \right )-2\right ) \] |
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\[ {}1-y \sin \left (x \right )-\cos \left (x \right ) y^{\prime } = 0 \] |
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\[ {}y^{\prime }-\frac {y}{x} = 2 x^{2} \ln \left (x \right ) \] |
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\[ {}y^{\prime }+\alpha y = {\mathrm e}^{\beta x} \] |
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\[ {}y^{\prime }+\frac {m y}{x} = \ln \left (x \right ) \] |
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\[ {}y^{\prime }+\frac {2 y}{x} = 4 x \] |
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\[ {}y^{\prime } \sin \left (x \right )-\cos \left (x \right ) y = \sin \left (2 x \right ) \] |
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\[ {}x^{\prime }+\frac {2 x}{4-t} = 5 \] |
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\[ {}y-{\mathrm e}^{x}+y^{\prime } = 0 \] |
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\[
{}y^{\prime }-2 y = \left \{\begin {array}{cc} 1 & x \le 1 \\ 0 & 1 |
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\[ {}y^{\prime }-2 y = \left \{\begin {array}{cc} 1-x & x <1 \\ 0 & 1\le x \end {array}\right . \] |
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\[ {}y^{\prime }+\frac {y}{x} = \cos \left (x \right ) \] |
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\[ {}y^{\prime }+y = {\mathrm e}^{-2 x} \] |
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\[ {}y^{\prime }+y \cot \left (x \right ) = 2 \cos \left (x \right ) \] |
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\[ {}-y+x y^{\prime } = x^{2} \ln \left (x \right ) \] |
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\[ {}y^{\prime } = \frac {x^{2}+x y+y^{2}}{x^{2}} \] |
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