大学の応用数学がわかりません。教えてください。

3 (1) x≧0→f+(x)=f(x)=e^{-x}cosx x<0→f+(x)=f+(-x)=(e^x)cosx F(x)={1/√(2π)}∫_{-∞～∞}f+(u)e^{-ixu}du ={1/√(2π)}∫_{-∞～0}(cosu)e^{u-ixu}du+{1/√(2π)}∫_{0～∞}(cosu)e^{-u-ixu}du ={1/√(2π)}[1/(x^2+2x+2)+1/(x^2-2x+2)] f+(x)={1/(2π)}∫_{-∞～∞}[1/(a^2+2a+2)+1/(a^2-2a+2)]e^{iax}da ={1/π}∫_{0～∞}[1/(a^2+2a+2)+1/(a^2-2a+2)]cos(ax)da (2) x≧0→f-(x)=f(x)=e^{-x}cosx x<0→f-(x)=-f-(-x)=(-e^x)cosx F(x)={1/√(2π)}∫_{-∞～∞}f-(u)e^{-ixu}du ={1/√(2π)}∫_{0～∞}(cosu)e^{-u-ixu}du-{1/√(2π)}∫_{-∞～0}(cosu)e^{u-ixu}du ={-i/√(2π)}[(x+1)/(x^2+2x+1)+(x-1)/(x^2-2x+1)] f-(x)={1/(2π)}∫_{-∞～∞}[(a+1)/(a^2+2a+2)+(a-1)/(a^2-2a+2)](-i)e^{i(ax)}da ={1/π}∫_{0～∞}[(a+1)/(a^2+2a+2)+(a-1)/(a^2-2a+2)]sin(ax)da (3) x≧0→f(x)=e^{-x}cosx x<0→f(x)=0 F(x)={1/√(2π)}∫_{-∞～∞}f(u)e^{-ixu}du ={1/√(2π)}∫_{0～∞}(cosu)e^{-u(1+ix)}du ={1/√(2π)}([1/{1+i(x-1)}]+[1/{1+i(x+1)}])/2 ={1/√(2π)}(x^2+2-ix^3)/[{1+(x+1)^2}{1+(x-1)^2}] f(x)={1/(2π)}∫_{-∞～∞}{(a^2+2-ia^3)e^{i(ax)}/[{1+(a+1)^2}{1+(a-1)^2}]}da =(1/π)[∫_{0～∞}([{(a^2+2)cos(ax)}+{(a^3)sin(ax)}]/[{1+(a+1)^2}{1+(a-1)^2}])da 4 u=X(x)T(t) X(x)T'(t)=kX"(x)T(t) T'(t)/T(t)=kX"(x)/X(x)=a T'(t)/T(t)=a ↓両辺をtで積分すると ∫{T'(t)/T(t)}dt=log{T(t)}=a∫dt=at+c4 →T(t)=e^{at+c4}=c3*e^{at} kX"(x)/X(x)=a →X"(x)-(a/k)X(x)=0 ↓D=(d/dx)とすると (D^2-(a/k))X(x)=0 ↓微分方程式 {D+√(a/k)}{D-√(a/k)}X(x)=0 ↓の一般解は X(x)=c1e^{x√(a/k)}+c2e^{-x√(a/k)} (B)の第2式より u_x(l,t)=X'(l)T(t)=0→X'(l)=0だから →X'(l)=c1√(a/k)e^{l√(a/k)}-c2√(a/k)e^{-l√(a/k)}=0 →c1e^{2l√(a/k)}=c2 →X(x)=c1(e^{x√(a/k)}+e^{(2l-x)√(a/k)}) (B)の第1式より u(0,t)=X(0)T(t)=0→X(0)=0だから →X(0)=c1(1+e^{2l√(a/k)})=0 →e^{2l√(a/k)}=-1 →a<0 →e^{i2l√(-a/k)}=-1 →cos(2l√(-a/k))+isin(2l√(-a/k))=-1 ↓nを任意の整数とすると 2l√(-a/k)=(2n+1)π →√(-a/k)=(2n+1)π/(2l) →a=-k{(2n+1)π/(2l)}^2 →X(x)=c1*sin(x(2n+1)π/(2l)) T(t)=c3*e^{at}=c3*e^[-k{(2n+1)π/(2l)}^2] ↓c=c1*c3とすると u(x,t)=X(x)T(t)=c*e^[-tk{(2n+1)π/(2l)}^2]sin(x(2n+1)π/(2l))