• 2022-06-30 问题

    函数[img=79x27]180355ae2690a03.png[/img]在x=2处的二阶泰勒展开式为 A: exp(sin(2))+cos(2)*exp(sin(2))*(x-2)+exp(sin(2))*(sin(2)/2-cos(2)^2/2)*(x-2)^2 B: exp(sin(2))+cos(2)*exp(sin(2))*(x-2)-exp(sin(2))*(sin(2)/2-cos(2)^2/2)*(x-2)^2 C: exp(sin(2))+cos(2)*exp(sin(2))*(x-2)-exp(sin(2))*(sin(2)/2+cos(2)^2/2)*(x-2)^2 D: exp(sin(2))+cos(2)*exp(sin(2))*(x-2)+exp(sin(2))*(sin(2)/2+cos(2)^2/2)*(x-2)^2

    函数[img=79x27]180355ae2690a03.png[/img]在x=2处的二阶泰勒展开式为 A: exp(sin(2))+cos(2)*exp(sin(2))*(x-2)+exp(sin(2))*(sin(2)/2-cos(2)^2/2)*(x-2)^2 B: exp(sin(2))+cos(2)*exp(sin(2))*(x-2)-exp(sin(2))*(sin(2)/2-cos(2)^2/2)*(x-2)^2 C: exp(sin(2))+cos(2)*exp(sin(2))*(x-2)-exp(sin(2))*(sin(2)/2+cos(2)^2/2)*(x-2)^2 D: exp(sin(2))+cos(2)*exp(sin(2))*(x-2)+exp(sin(2))*(sin(2)/2+cos(2)^2/2)*(x-2)^2

  • 2022-06-01 问题

    求定积分[img=165x50]17da65381a63c9b.png[/img]; ( ) A: (exp(6*pi) - 1)/(5*exp(2*pi)) B: (exp(6*pi) - 1)*(5*exp(2*pi)) C: (exp(6*pi) - 1)/(exp(2*pi)) D: (exp(6*pi) - 1)+(5*exp(2*pi))

    求定积分[img=165x50]17da65381a63c9b.png[/img]; ( ) A: (exp(6*pi) - 1)/(5*exp(2*pi)) B: (exp(6*pi) - 1)*(5*exp(2*pi)) C: (exp(6*pi) - 1)/(exp(2*pi)) D: (exp(6*pi) - 1)+(5*exp(2*pi))

  • 2022-06-01 问题

    求微分方程[img=101x35]17da5f15503f795.png[/img] 的通解,实验命令为(). A: dsolve(Dy+2*x*y=x*exp(-x^2))ans=C1*exp(-x^2) + (x^2*exp(-x^2))/2 B: dsolve('Dy+2*x*y=x*exp(-x^2)','x')ans=C1*exp(-x^2) + (x^2*exp(-x^2))/2 C: dsolve('Dy+2*x*y=x*exp(-x^2)')ans=C1*exp(-x^2) + (x^2*exp(-x^2))/2

    求微分方程[img=101x35]17da5f15503f795.png[/img] 的通解,实验命令为(). A: dsolve(Dy+2*x*y=x*exp(-x^2))ans=C1*exp(-x^2) + (x^2*exp(-x^2))/2 B: dsolve('Dy+2*x*y=x*exp(-x^2)','x')ans=C1*exp(-x^2) + (x^2*exp(-x^2))/2 C: dsolve('Dy+2*x*y=x*exp(-x^2)')ans=C1*exp(-x^2) + (x^2*exp(-x^2))/2

  • 2022-06-19 问题

    求微分方程[img=372x60]17da65376dc1787.jpg[/img]的通解。 ( ) A: C26*exp(3*x) + (x*exp(3*x)*(x + 1)^2)/2 + C27*x*exp(3*x) - (x^2*exp(3*x)*(2*x + 3))/6 B: C26*exp(3*x) + C27*x*exp(3*x) - (x^2*exp(3*x)*(2*x + 3))/6 C: C26*exp(3*x) + (x*exp(3*x)*(x + 1)^2)/2 D: C27*x*exp(3*x) - (x^2*exp(3*x)*(2*x + 3))/6

    求微分方程[img=372x60]17da65376dc1787.jpg[/img]的通解。 ( ) A: C26*exp(3*x) + (x*exp(3*x)*(x + 1)^2)/2 + C27*x*exp(3*x) - (x^2*exp(3*x)*(2*x + 3))/6 B: C26*exp(3*x) + C27*x*exp(3*x) - (x^2*exp(3*x)*(2*x + 3))/6 C: C26*exp(3*x) + (x*exp(3*x)*(x + 1)^2)/2 D: C27*x*exp(3*x) - (x^2*exp(3*x)*(2*x + 3))/6

  • 2022-07-23 问题

    用Matlab求解常微分方程初值问题[img=191x61]1802e4db6ff00c5.png[/img],输出结果是: A: 2*exp(t)+4*t*exp(-t)+1 B: 2*exp(-t)+4*t*exp(-t)-1 C: 2*exp(-t)+4*t*exp(-t)+1 D: 2*exp(t)+4*t*exp(-t)-1

    用Matlab求解常微分方程初值问题[img=191x61]1802e4db6ff00c5.png[/img],输出结果是: A: 2*exp(t)+4*t*exp(-t)+1 B: 2*exp(-t)+4*t*exp(-t)-1 C: 2*exp(-t)+4*t*exp(-t)+1 D: 2*exp(t)+4*t*exp(-t)-1

  • 2021-04-14 问题

    语句 x=-1:0.1:1; plot([x+i*exp(-x.^2); x+i*exp(-2*x.^2); x+i*exp(-4*x.^2)]’),绘制( )

    语句 x=-1:0.1:1; plot([x+i*exp(-x.^2); x+i*exp(-2*x.^2); x+i*exp(-4*x.^2)]’),绘制( )

  • 2022-06-19 问题

    求微分方程[img=364x55]17da65386dfd612.png[/img]的通解; ( ) A: - cos(2*x)*exp(x)*(x/4 - sin(4*x)/16) + C23*cos(2*x)*exp(x) + C24*sin(2*x)*exp(x) B: (3*sin(2*x)*exp(x))/32 - (sin(6*x)*exp(x))/32 - cos(2*x)*exp(x)*(x/4 - sin(4*x)/16) + C23*cos(2*x)*exp(x) + C24*sin(2*x)*exp(x) C: - sin(4*x)/16) + C23*cos(2*x)*exp(x) + C24*sin(2*x)*exp(x) D: (sin(6*x)*exp(x))/32 - cos(2*x)*exp(x)*(x/4 - sin(4*x)/16) + C23*cos(2*x)*exp(x) + C24*sin(2*x)*exp(x)

    求微分方程[img=364x55]17da65386dfd612.png[/img]的通解; ( ) A: - cos(2*x)*exp(x)*(x/4 - sin(4*x)/16) + C23*cos(2*x)*exp(x) + C24*sin(2*x)*exp(x) B: (3*sin(2*x)*exp(x))/32 - (sin(6*x)*exp(x))/32 - cos(2*x)*exp(x)*(x/4 - sin(4*x)/16) + C23*cos(2*x)*exp(x) + C24*sin(2*x)*exp(x) C: - sin(4*x)/16) + C23*cos(2*x)*exp(x) + C24*sin(2*x)*exp(x) D: (sin(6*x)*exp(x))/32 - cos(2*x)*exp(x)*(x/4 - sin(4*x)/16) + C23*cos(2*x)*exp(x) + C24*sin(2*x)*exp(x)

  • 2022-06-19 问题

    求微分方程[img=269x55]17da6536a9fba07.png[/img]的通解; ( ) A: (C15*sin(2*t))/exp(3*t) + (C16*sin(2*t))/exp(3*t) B: (C15*cos(2*t))/exp(3*t) - (C16*sin(2*t))/exp(3*t) C: (C15*cos(2*t))/exp(3*t) + (C16*cos(2*t))/exp(3*t) D: (C15*cos(2*t))/exp(3*t) + (C16*sin(2*t))/exp(3*t)

    求微分方程[img=269x55]17da6536a9fba07.png[/img]的通解; ( ) A: (C15*sin(2*t))/exp(3*t) + (C16*sin(2*t))/exp(3*t) B: (C15*cos(2*t))/exp(3*t) - (C16*sin(2*t))/exp(3*t) C: (C15*cos(2*t))/exp(3*t) + (C16*cos(2*t))/exp(3*t) D: (C15*cos(2*t))/exp(3*t) + (C16*sin(2*t))/exp(3*t)

  • 2022-07-24 问题

    下面哪一组语句能够完成绘制函数[img=137x26]1803d6af6af20de.png[/img]在区间[img=70x25]1803d6af731b20a.png[/img]上的图形的功能 A: f=’x^3+2*x^2+exp(x)’ezplot(f) B: f=inline(’x^3+2*x^2+exp(x)’)ezplot(f) C: x=-2*pi: 0.1:2*piy=x. ^3+2*x. ^2+exp(x)plot(x, y) D: x=-2pi:0.1:2piy= x^3+2*x^2+exp(x)plot(x,y)

    下面哪一组语句能够完成绘制函数[img=137x26]1803d6af6af20de.png[/img]在区间[img=70x25]1803d6af731b20a.png[/img]上的图形的功能 A: f=’x^3+2*x^2+exp(x)’ezplot(f) B: f=inline(’x^3+2*x^2+exp(x)’)ezplot(f) C: x=-2*pi: 0.1:2*piy=x. ^3+2*x. ^2+exp(x)plot(x, y) D: x=-2pi:0.1:2piy= x^3+2*x^2+exp(x)plot(x,y)

  • 2022-06-19 问题

    已知标准正态分布随机变量的特征函数为g(t)=exp{-t2/2},随机变量X服从正态分布N(μ,σ2),则X的特征函数gX(t)为 A: exp{itμ-σ2t2/2} B: exp{itμ+σ2t2/2} C: exp{2itμ-σ2t2/2} D: exp{2itμ+σ2t2/2}

    已知标准正态分布随机变量的特征函数为g(t)=exp{-t2/2},随机变量X服从正态分布N(μ,σ2),则X的特征函数gX(t)为 A: exp{itμ-σ2t2/2} B: exp{itμ+σ2t2/2} C: exp{2itμ-σ2t2/2} D: exp{2itμ+σ2t2/2}

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