单选题 (共 6 题 ),每题只有一个选项正确
设 $f(x, y)$ 在点 $P_0\left(x_0, y_0\right)$ 处有二阶连续偏导数, 且 $f(x, y)$ 在 $P_0$ 处取得极大 值, 则
$\text{A.}$ $f_{x x}^{\prime \prime}\left(P_0\right) \geqslant 0, f_{y y}^{\prime \prime}\left(P_0\right) \geqslant 0$.
$\text{B.}$ $f_{x x}^{\prime \prime}\left(P_0\right) < 0, f_{y y}^{\prime \prime}\left(P_0\right) < 0$.
$\text{C.}$ $f_{x x}^{\prime \prime}\left(P_0\right) \leqslant 0, f_{y y}^{\prime \prime}\left(P_0\right) \leqslant 0$.
$\text{D.}$ $f_{x x}^{\prime \prime}\left(P_0\right) \leqslant 0, f_{y y}^{\prime \prime}\left(P_0\right) \geqslant 0$.
设 $f(x, y)$ 具有一阶连续偏导数, 若 $f\left(x, x^2\right)=x^3, f_x\left(x, x^2\right)=x^2-2 x^4$, 则 $f_y\left(x, x^2\right)=$
$\text{A.}$ $x+x^3$
$\text{B.}$ $2 x^2+2 x^4 $
$\text{C.}$ $x^2+x^5$
$\text{D.}$ $2 x+2 x^2$
函数 $z=\ln (1-x y)$ 在点 $(0,1)$ 处的全微分 $\mathrm{d} z=$
$\text{A.}$ $dx$
$\text{B.}$ $-dx$,
$\text{C.}$ $dy$
$\text{D.}$ $-dy$
函数 $z=z(x, y)$ 由方程 $z^3-3 x y z=1$ 确定, 则 $\frac{\partial z}{\partial x}=$.
$\text{A.}$ $\frac{y z}{z^2-x y}$
$\text{B.}$ $\frac{-y z}{z^2-x y}$
$\text{C.}$ $\frac{z^2-x y}{y z}$
$\text{D.}$ $\frac{z^2-x y}{-y z}$
设 $z=\sin \left(x+y^2\right)$ ,则 $\dfrac{\partial^2 z}{\partial x^2}=$.
$\text{A.}$ $-\sin \left(x+y^2\right)$
$\text{B.}$ $-\cos \left(x+y^2\right)$
$\text{C.}$ $\sin \left(x+y^2\right)$
$\text{D.}$ $\cos \left(x+y^2\right)$
设 $f(x, y)=\left\{\begin{array}{ll}\left(x^2+y^2\right) \cos \left(\frac{1}{\sqrt{x^2+y^2}}\right), & x^2+y^2 \neq 0, \\ 0, & x^2+y^2=0,\end{array}\right.$ 则 $f(x, y)$ 在点 $(0,0)$ 处
$\text{A.}$ $\frac{\partial f}{\partial x}, \frac{\partial f}{\partial y}$ 不存在
$\text{B.}$ $\frac{\partial f}{\partial x}, \frac{\partial f}{\partial y}$ 连续
$\text{C.}$ 可微
$\text{D.}$ 不连续