${\bf P}(X=-2)=\,$ ${\bf P}(X=1)=\,$ ${\bf P}(X=0)=\,$______
${\bf P}(X=-2)=\,$ ${\bf P}(X=1)=\,$ ${\bf P}(X=0)=\,$______
${\rm var}(X)=\,$ ${\bf E}[X]=\,$ ${\bf P}(X=3)=\,$ ${\bf P}(X=-2)=\,$ ${\bf P}(X=1)=\,$ ${\bf P}(X=0)=\,$______
${\rm var}(X)=\,$ ${\bf E}[X]=\,$ ${\bf P}(X=3)=\,$ ${\bf P}(X=-2)=\,$ ${\bf P}(X=1)=\,$ ${\bf P}(X=0)=\,$______
定义在(0,+∞)上的可导函数f(x)满足xf′(x)-f(x)<0,则对任意a,b∈(0,+∞)且a>b,有() A: af(a)>bf(b) B: bf(a)>af(b) C: af(a)<bf(b) D: bf(a)<af(b)
定义在(0,+∞)上的可导函数f(x)满足xf′(x)-f(x)<0,则对任意a,b∈(0,+∞)且a>b,有() A: af(a)>bf(b) B: bf(a)>af(b) C: af(a)<bf(b) D: bf(a)<af(b)
设函数f(x)在区间(0,+∞)内具有二阶导数,满足f(0)=0,f"(x)<0,又0<a<b,则当a<x<b时恒有( ) A: af(x)>xf(a) B: bf(x)>xf(b) C: xf(x)>bf(b) D: xf(x)>af
设函数f(x)在区间(0,+∞)内具有二阶导数,满足f(0)=0,f"(x)<0,又0<a<b,则当a<x<b时恒有( ) A: af(x)>xf(a) B: bf(x)>xf(b) C: xf(x)>bf(b) D: xf(x)>af
设\( {\bf{A}} \) 为三阶矩阵,\( { { \bf{A}}^*} \)是\( {\bf{A}} \)的伴随矩阵,且\( \left| {\bf{A}} \right| = 1 \),则\( \left| {2 { { \bf{A}}^{ - 1}} + 3 { { \bf{A}}^*}} \right| = \)______
设\( {\bf{A}} \) 为三阶矩阵,\( { { \bf{A}}^*} \)是\( {\bf{A}} \)的伴随矩阵,且\( \left| {\bf{A}} \right| = 1 \),则\( \left| {2 { { \bf{A}}^{ - 1}} + 3 { { \bf{A}}^*}} \right| = \)______
设f(x)在(0,+∞)二阶可导,满足f(0)=0,f(x)在x=0处可导,f"(x)<0(x>0),又设b>a>0,则a<x<b时恒有 A: af(x)>xf(a). B: bf(x)>xf(b). C: xf(x)>bf(b). D: xf(x)>af(a).
设f(x)在(0,+∞)二阶可导,满足f(0)=0,f(x)在x=0处可导,f"(x)<0(x>0),又设b>a>0,则a<x<b时恒有 A: af(x)>xf(a). B: bf(x)>xf(b). C: xf(x)>bf(b). D: xf(x)>af(a).
${\bf P}(X=4)=\,$ ${\bf P}(X=3)=\,$ ${\bf P}(X=2)=\,$ ${\bf P}(X=1)=\,$______
${\bf P}(X=4)=\,$ ${\bf P}(X=3)=\,$ ${\bf P}(X=2)=\,$ ${\bf P}(X=1)=\,$______
In 1803 the United States purchased Louisiana from _____.
In 1803 the United States purchased Louisiana from _____.
设${\bf{r}}$是从地心指向卫星质心的矢量,则表达式____总成立。 A: ${\bf{r}} \cdot {\bf{\dot r}} = r \cdot \dot r$ B: $\left| {{\bf{r}} \times {\bf{\dot r}}} \right| = r \cdot \dot r$ C: ${\bf{r}} \cdot {\bf{\ddot r}} = r \cdot \ddot r$ D: $\left| {{\bf{r}} \times {\bf{\ddot r}}} \right| = r \cdot \ddot r$
设${\bf{r}}$是从地心指向卫星质心的矢量,则表达式____总成立。 A: ${\bf{r}} \cdot {\bf{\dot r}} = r \cdot \dot r$ B: $\left| {{\bf{r}} \times {\bf{\dot r}}} \right| = r \cdot \dot r$ C: ${\bf{r}} \cdot {\bf{\ddot r}} = r \cdot \ddot r$ D: $\left| {{\bf{r}} \times {\bf{\ddot r}}} \right| = r \cdot \ddot r$
In 1803, President Jefferson negotiated the purchase of Louisiana from Mexico.
In 1803, President Jefferson negotiated the purchase of Louisiana from Mexico.