设f(x)具有连续导数,且满足f(x)=x ∫(上x下0)tf(x-t)dt
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∫xf''(x)dx=∫xdf'(x)=xf'(x)-∫f'(x)dx=xf'(x)-∫df'(x)=xf'(x)-f(x)+C
f(0)=f(x)+f'(x)(0-x)+0.5f''(a)(0-x)^2f(1)=f(x)+f'(x)(1-x)+0.5f''(b)(1-x)^2两式相减,移项,取绝对值得|f'(x)|=|f(1)
令x=0:0=1-f(0),f(0)=1左边=x∫(0→x)f'(t)dt-∫(0→x)(t-1)f'(t)dt=x(f(x)-f(0))-∫(0→x)(t-1)f'(t)dt=xf(x)-x-∫(0
1)证存在:因为f''(x)不等于0所以f'(x)在定义域内单调且原函数f(x)在定义域内连续可导令x属于(0,1),则在0的区间(0,x)内必有一点ζ,满足f'(ζ)=[f(x)-f(0)]/(x-
(偏导数的符号用a代替了)两边对x求偏导数:Fx+Fz*az/ax=0az/ax=-Fx/Fz两边对x求偏导数:a^2z/ax^2=-(FxxFz+FxzFz*az/ax-Fx(Fzx+Fzz*az/
做变化x=rcost,y=rsintdf/dx=(1/cost)df/dr-[1/(rsint)]df/dtdf/dy=(1/sint)df/dr-[1/(rcost)]df/dtx(df/dx)+y
复合函数求偏导啊g对x一阶导数,-f'(y/x)*y/x^2+f'(x/y)g对y一阶导数,f'(y/x)/x+f(x/y)-f'(x/y)/y所以g对x二阶偏导,f''(y/x)*y^2/x^4+2
解答1题:可以推出,满足等式δ²Z/δx²+δ²Z/δy²=Ze^2x就是满足f″=f解微分方程y″=y的通解为y=C1e^u+C2e^(-u)所以f(u)=C
求导F'(x)=F(1-x)变换变量F'(1-x)=F(x)在对F'(x)=F(1-x)求导F''(x)=-F'(1-x)=-F(x)解得F(x)=Acosx+Bsinx∵F(0)=1,F'(1)=F
F(a)=∫(0→a)f(t)f'(2a-t)dt=∫(2a→a)f(2a-x)f'(x)d(2a-x)(x=2a-t)=∫(a→2a)f(2a-t)f'(t)dt=∫(a→2a)f(2a-t)d(f
这是小学题吗?⊙_⊙再答:出题请出在相对的年纪哦再答:给个采纳吧再问:我填的其它再问:我填的其它,怎么成小学了再问:你太可爱了再答:额再答:因为你问的问题那有选择哦再答:有采纳吗再问:没有再答:哦再问
f(x)=∫(上限是x下限是0)(x^2-t^2)f'(t)dt+x^2所以f(0)=0,又函数f(x)具有连续一阶导数,对上式两边求导得;f'(x)=)=∫(上限是x下限是0)2xf'(t)dt+2
1=lim(x→0)F(x)所以lim(x→0)f(x)=01=lim(x→0)F(x)=lim(x→0)f(x)/x+lim(x→0)3ln(1+x)/x=lim(x→0)(f(x)-f(0))/(
Taylor展式:对任意的x,f(0)=f(x)+f'(x)(0-x)+f''(c1)(0-x)^2/2,f(1)=f(x)+f'(x)(1-x)+f''(c2)(1-x)^2/2.两式相减,得f'(
令p=[f(x)-e^x]sinyq=-f(x)cosy因为积分与路径无关所以(αp/αy)=(αq/αx)带入化解得:f'(x)+f(x)=e^x解之的f(x)=e^(-∫dx)[c+∫(e^x)*
首先,由f′(0)=0可知,x=0为f(x)的一个驻点,为判断其是否为极值点,仅需判断f″(x)的符号.因为limx→0f″(x)|x|=1,由等价无穷小的概念可知,limx→0f″(x)=0.因为f
根据泰勒公式f(x+h)=f(x)+f'(x)h+(1/2)f''(x)h^2+o(h^2)于是:f(x)+hf'(x+θh)=f(x)+f'(x)h+(1/2)f''(x)h^2+o(h^2)θ{[
lim(x→0+)(d/dx)f(cos√x) =lim(x→0+)f'(cos√x)*(-sin√x)*[1/(2√x)] =(-1/2)*lim(x→0+)f'(cos√x)*lim(x→0+
是先求导数,再求极限lim[f(cos√x)]'=limf'(cos√x)(-sin√x)/(2√x)=(-1/2)limf'(cos√x)=-3/2