ta có y'=\(-e^{-x}.\sin+e^{-x}.cosx\)

y"=\(e^{-x}.sinx-e^{-x}.cosx-e^{-x}.cosx-e^{-x}.sinx=-2e^{-x.cosx}\)

vậy y"+2y'+2y=\(-2e^{-x}.cosx-2e^{-x}.sinx+2e^{-x}.cosx+2e^{-x}.sinx=0\)

Ta có \(y'=\frac{\cos\left(\ln x\right)-\sin\left(\ln x\right)}{x}\)

                 \(\Rightarrow y"=\frac{x.\frac{-\sin\left(\ln x\right)-\cos\left(\ln x\right)}{x}-\left[\cos\left(\ln x\right)-\sin\left(\ln x\right)\right]}{x^2}=\frac{-2\cos\left(\ln x\right)}{x^2}\)

Ta có : 

            \(y+xy'+x^2y"=\sin\left(\ln x\right)+\cos\left(\ln x\right)+\cos\left(\ln x\right)-\sin\left(\ln x\right)-2\cos\left(\ln x\right)=0\)

Ta có \(y'=2e^{2x}\sin5x+5e^{2x}\cos5x\)

          \(y"=4e^{2x}\sin5x+10e^{2x}\cos5x+10e^{2x}\cos5x-25e^{2x}\sin5x\)

               \(=-21e^{2x}\sin5x+20e^{2x}\cos5x\)

Vậy \(y"-4y'+29=-21e^{2x}\sin5x+20e^{2x}\cos5x-8e^{2x}\cos5x+29e^{2x}\sin5x=0\)

Ta có : \(y=e^{-x}\sin x\Rightarrow\begin{cases}y'=-e^{-x}\sin x+e^{-x}\cos x=e^{-x}\left(\cos x-\sin x\right)\\y"=-e^{-x}\left(\cos x-\sin x\right)+e^{-x}\left(-\cos x-\sin x\right)=-2e^{-x}\cos x\end{cases}\)

\(\Rightarrow y"+2y'+2y=-2e^{-x}\cos x+2e^{-x}\left(\cos x-\sin x\right)+2e^{-x}\sin x=0\) => Điều phải chứng minh

Ta có \(y'=\frac{\frac{1}{x}x\left(1-\ln x\right)-\left[1-\ln x+x\left(-\frac{1}{x}\right)\right]\left(1+\ln x\right)}{x^2\left(1-\ln x\right)^2}=\frac{1-\ln x+\ln x\left(1+\ln x\right)}{x^2\left(1-\ln x\right)^2}=\frac{1+\ln^2x}{x^2\left(1-\ln x\right)^2}\)

\(\Rightarrow\begin{cases}2x^2y'=2x^2\frac{1+\ln^2x}{x^2\left(1-\ln x\right)^2}=\frac{2\left(1+\ln^2x\right)}{\left(1-\ln x\right)^2}\\x^2y^2+1=x^2\frac{1+\ln^2x}{x^2\left(1-\ln x\right)^2}+1=\frac{\left(1+\ln^2x\right)}{\left(1-\ln x\right)^2}+1=\frac{2\left(1+\ln^2x\right)}{\left(1-\ln x\right)^2}\end{cases}\)

\(\Rightarrow2x^2y'=x^2y^2+1\Rightarrow\) Điều phải chứng minh

heo me tim gtnn gtln cua bieu thuc:asinx + bcosx (a,b la hang so,a^2+b^2=/o)? | Yahoo Hỏi & Đáp

cám ơn bn nhìu nha 

Ta có : \(y=\sin\left(\ln x\right)+\cos\left(\ln x\right)\Rightarrow\begin{cases}y'=\frac{1}{x}\cos\left(\ln x\right)-\frac{1}{x}\sin\left(\ln x\right)=\frac{\cos\left(\ln x\right)-\sin\left(\ln x\right)}{x}\\y"=\frac{\left[-\frac{1}{x}\sin\left(\ln x\right)-\frac{1}{x}\cos\left(\ln x\right)\right]x-\left[\cos\left(\ln x\right)-\sin\left(\ln x\right)\right]}{x^2}=\frac{-2\cos\left(\ln x\right)}{x^2}\end{cases}\)

\(\Rightarrow y+xy'+x^2y"=\sin\left(\ln x\right)+\cos\left(\ln x\right)+\cos\left(\ln x\right)-\sin\left(\ln x\right)-2\cos\left(\ln x\right)=0\)

=> Điều cần chứng minh

ta có y'=\(e^{sinx}.\cos sx;y"=e^{sinx}.cos^2x-sinx.e^{sinx}\)

vậy y'cosx-ysinx-y"=\(e^{sinx}.cos^2x-e^{sinx}.sinx-é^{sinx}.sinx-e^{sinx}.cos^2x+e^{sinx}.sinx=0\)