5.下列函数中,在其定义域上有最大值和最小值的是()。
A: $f(x)=\left\{ \begin{array}{*{35}{l}} \ln \left| x \right|,\ \ \ x\ne 0 \\ 0,\ \ \ \ \ \ \ \ x=0 \\ \end{array} \right.$
B: $f(x)=\ln \left( \left| x \right|+1 \right)\ x\in [-1,1]$
C: $f(x)=\ln \left| x \right|,\ \ \ x\in [-1,1]\backslash \{0\}$
D: $f(x)=\left\{ \begin{array}{*{35}{l}} \ln \left| x \right|,\ \ \ 0\lt |x|\lt 1 \\ 0,\ \ \ \ \ \ \ \ x=0 \\ \end{array} \right.$
A: $f(x)=\left\{ \begin{array}{*{35}{l}} \ln \left| x \right|,\ \ \ x\ne 0 \\ 0,\ \ \ \ \ \ \ \ x=0 \\ \end{array} \right.$
B: $f(x)=\ln \left( \left| x \right|+1 \right)\ x\in [-1,1]$
C: $f(x)=\ln \left| x \right|,\ \ \ x\in [-1,1]\backslash \{0\}$
D: $f(x)=\left\{ \begin{array}{*{35}{l}} \ln \left| x \right|,\ \ \ 0\lt |x|\lt 1 \\ 0,\ \ \ \ \ \ \ \ x=0 \\ \end{array} \right.$
举一反三
- 8.下列函数在$x_0=0$处连续的为()。 A: $f(x) = \left\{ {\begin{array}{*{20}{c}}<br/>{{{\rm{e}}^{ - \frac{1}{{{x^2}}}}},\;\;x \ne 0} \\<br/>{0,\;\;\;\;\;x = 0} \\<br/>\end{array}} \right.<br/>$ B: $f(x) = [x]<br/>$ C: $f(x) = {\mathop{\rm sgn}} (\sin x)<br/>$ D: $f(x) = \left\{ {\begin{array}{*{20}{c}}<br/>{\frac{{\sin x}}{{\left| x \right|}},\;\;x \ne 0} \\<br/>{1,\;\;\;\;\;\;\;x = 0} \\<br/>\end{array}} \right.<br/>$
- 函数$y = \ln x$,则${\left( {\ln x} \right)^{\left( n \right)}} = {\left( { - 1} \right)^{n - 1}}{{\left( {n - 1} \right)!} \over {{x^n}}}$。( )
- \( \lim \limits_{x \to {0^ + }} {\left( {\cot x} \right)^ { { 1 \over {\ln x}}}} \)=_____ ______
- 函数\(z = {\left( {xy} \right)^x}\)的全微分为 A: \(dz = \left( { { {\left( {xy} \right)}^x} + \ln xy} \right)dx + x{\left( {xy} \right)^x}dy\) B: \(dz = \left( { { {\left( {xy} \right)}^x} + \ln xy} \right)dx + { { x { { \left( {xy} \right)}^x}} \over y}dy\) C: \(dz = {\left( {xy} \right)^x}\ln xydx + { { x { { \left( {xy} \right)}^x}} \over y}dy\) D: \(dz = {\left( {xy} \right)^x}\left( {1 + \ln xy} \right)dx + { { x { { \left( {xy} \right)}^x}} \over y}dy\)
- \( \int {({1 \over x} - {2 \over {\sqrt {1 - {x^2}} }})dx} = \)( ) A: \( \ln \left| x \right| + 2\arcsin x + C \) B: \( \ln \left| x \right| - 2\arcsin x + C \) C: \(- \ln \left| x \right| - 2\arcsin x + C \) D: \(- \ln \left| x \right| +2\arcsin x + C \)