函数$f(x)={{\text{e}}^{2x-{{x}^{2}}}}$在$x=0$处的$3$次Taylor多项式为 A: $1+2x+2{{x}^{2}}+2{{x}^{3}}$ B: $1+2x+2{{x}^{2}}-4{{x}^{3}}$ C: $1+2x+{{x}^{2}}+\frac{2}{3}{{x}^{3}}$ D: $1+2x+{{x}^{2}}-\frac{2}{3}{{x}^{3}}$
函数$f(x)={{\text{e}}^{2x-{{x}^{2}}}}$在$x=0$处的$3$次Taylor多项式为 A: $1+2x+2{{x}^{2}}+2{{x}^{3}}$ B: $1+2x+2{{x}^{2}}-4{{x}^{3}}$ C: $1+2x+{{x}^{2}}+\frac{2}{3}{{x}^{3}}$ D: $1+2x+{{x}^{2}}-\frac{2}{3}{{x}^{3}}$
求函数[img=148x49]17da6537a5eee98.png[/img]的导数; ( ) A: 1/(x^2*(2/x^2 + 1)) B: -1/(x^2*(2/x^2 + 1)) C: (x^2*(2/x^2 + 1)) D: -1/(x^2*(2/x^2 + 1))+2/x^2 + 1
求函数[img=148x49]17da6537a5eee98.png[/img]的导数; ( ) A: 1/(x^2*(2/x^2 + 1)) B: -1/(x^2*(2/x^2 + 1)) C: (x^2*(2/x^2 + 1)) D: -1/(x^2*(2/x^2 + 1))+2/x^2 + 1
【单选题】对任意实数x 1 , y 1 , x 2 , y 2 , x 1 < x 2 , y 1 < y 2 , 分布函数P{x 1 <X≤x 2 , y 1 <Y≤y 2 }=? A. F(x 2 , y 2 )+ F(x 1 , y 1 )+ F(x 1 , y 2 )+ F(x 2 , y 1 ) B. F(x 2 , y 2 )- F(x 1 , y 1 )+ F(x 1 , y 2 )- F(x 2 , y 1 ) C. F(x 2 , y 2 )+ F(x 1 , y 1 )- F(x 1 , y 2 )- F(x 2 , y 1 ) D. F(x 2 , y 2 )- F(x 1 , y 1 )- F(x 1 , y 2 )+ F(x 2 , y 1 )
【单选题】对任意实数x 1 , y 1 , x 2 , y 2 , x 1 < x 2 , y 1 < y 2 , 分布函数P{x 1 <X≤x 2 , y 1 <Y≤y 2 }=? A. F(x 2 , y 2 )+ F(x 1 , y 1 )+ F(x 1 , y 2 )+ F(x 2 , y 1 ) B. F(x 2 , y 2 )- F(x 1 , y 1 )+ F(x 1 , y 2 )- F(x 2 , y 1 ) C. F(x 2 , y 2 )+ F(x 1 , y 1 )- F(x 1 , y 2 )- F(x 2 , y 1 ) D. F(x 2 , y 2 )- F(x 1 , y 1 )- F(x 1 , y 2 )+ F(x 2 , y 1 )
若\( \int {f(x)dx = {x^2} + C} \),则\( \int {xf(1 - {x^2})dx = } \)( ) A: \( 2{(1 - {x^2})^2} + C \) B: \( - {1 \over 2}{(1 - {x^2})^2} + C \) C: \( {1 \over 2}{(1 - {x^2})^2} + C \) D: \( - 2{(1 - {x^2})^2} + C \)
若\( \int {f(x)dx = {x^2} + C} \),则\( \int {xf(1 - {x^2})dx = } \)( ) A: \( 2{(1 - {x^2})^2} + C \) B: \( - {1 \over 2}{(1 - {x^2})^2} + C \) C: \( {1 \over 2}{(1 - {x^2})^2} + C \) D: \( - 2{(1 - {x^2})^2} + C \)
积分[img=136x52]1803d6afd4e6f95.png[/img]的计算程序和结果是 A: clearsyms xy=1/x^2/sqrt(x^2-1)int(y,x,-2,-1)3^(1/2)/2 B: clearsyms xint(1/x^2/sqrt(x^2-1),x,-2,-1)3^(1/2)/2 C: clearsyms xint(1/x/sqrt(x^2-1),x,-2,-1)-pi/3 D: clearsyms xint(1/x/sqrt(x^2-1),x,-2,-1)3^(1/2)/2 E: clearsyms xint(1/x^2*sqrt(x^2-1),x,-2,-1)log(3^(1/2) + 2) - 3^(1/2)/2
积分[img=136x52]1803d6afd4e6f95.png[/img]的计算程序和结果是 A: clearsyms xy=1/x^2/sqrt(x^2-1)int(y,x,-2,-1)3^(1/2)/2 B: clearsyms xint(1/x^2/sqrt(x^2-1),x,-2,-1)3^(1/2)/2 C: clearsyms xint(1/x/sqrt(x^2-1),x,-2,-1)-pi/3 D: clearsyms xint(1/x/sqrt(x^2-1),x,-2,-1)3^(1/2)/2 E: clearsyms xint(1/x^2*sqrt(x^2-1),x,-2,-1)log(3^(1/2) + 2) - 3^(1/2)/2
∫xe^(x^2)dx=( ) A: 1/2(e^(x^2)) B: 1/2(e^(x^2))+C C: -1/2(e^(x^2)) D: -1/2(e^(x^2))十C
∫xe^(x^2)dx=( ) A: 1/2(e^(x^2)) B: 1/2(e^(x^2))+C C: -1/2(e^(x^2)) D: -1/2(e^(x^2))十C
函数\(y = {\left( {\arcsin x} \right)^2}\)的导数为( ). A: \(2\arcsin x{1 \over {\sqrt {1 - {x^2}} }}\) B: \( - 2\arcsin x{1 \over {\sqrt {1 - {x^2}} }}\) C: \(2\arcsin x{1 \over {\sqrt {1 + {x^2}} }}\) D: \( - 2\arcsin x{1 \over {\sqrt {1 + {x^2}} }}\)
函数\(y = {\left( {\arcsin x} \right)^2}\)的导数为( ). A: \(2\arcsin x{1 \over {\sqrt {1 - {x^2}} }}\) B: \( - 2\arcsin x{1 \over {\sqrt {1 - {x^2}} }}\) C: \(2\arcsin x{1 \over {\sqrt {1 + {x^2}} }}\) D: \( - 2\arcsin x{1 \over {\sqrt {1 + {x^2}} }}\)
已知\( y = \ln (1 + {x^2}) \),则\( y' \)为( ). A: \( { { 2x} \over {1 + {x^2}}} \) B: \( {x \over {1 + {x^2}}} \) C: \( {1 \over {1 + {x^2}}} \) D: \( { { {x^2}} \over {1 + {x^2}}} \)
已知\( y = \ln (1 + {x^2}) \),则\( y' \)为( ). A: \( { { 2x} \over {1 + {x^2}}} \) B: \( {x \over {1 + {x^2}}} \) C: \( {1 \over {1 + {x^2}}} \) D: \( { { {x^2}} \over {1 + {x^2}}} \)
x = [ 1, 2 ] y = x x += y print(x) 上述代码输出结果为____。 A: [ 1, 2 ] B: [ 1, 2, 1 ] C: [ 2, 1, 2, 1 ] D: [ 1, 2, 1, 2]
x = [ 1, 2 ] y = x x += y print(x) 上述代码输出结果为____。 A: [ 1, 2 ] B: [ 1, 2, 1 ] C: [ 2, 1, 2, 1 ] D: [ 1, 2, 1, 2]
求变上限函数[img=72x35]17da5f1066e9acf.png[/img]对变量x的导数,实验命令是(). A: diff(int(sqrt(a+t),t,x,x^2))ans =2*x*(x^2 + a)^(1/2) - (a + x)^(1/2) B: syms a t; diff(int(sqrt(a+t),t,x,x^2))ans =2*x*(x^2 + a)^(1/2) - (a + x)^(1/2) C: diff('int(sqrt(a+t)','t',x,x^2))ans =2*x*(x^2 + a)^(1/2) - (a + x)^(1/2)
求变上限函数[img=72x35]17da5f1066e9acf.png[/img]对变量x的导数,实验命令是(). A: diff(int(sqrt(a+t),t,x,x^2))ans =2*x*(x^2 + a)^(1/2) - (a + x)^(1/2) B: syms a t; diff(int(sqrt(a+t),t,x,x^2))ans =2*x*(x^2 + a)^(1/2) - (a + x)^(1/2) C: diff('int(sqrt(a+t)','t',x,x^2))ans =2*x*(x^2 + a)^(1/2) - (a + x)^(1/2)