面積分

xyz空間上の半径1の球面でxy平面上(z≧0)の半球面をS 半球面上の点をX 半球面の法線ベクトルをn A=(2x,-y,2z)=2xex-yey+2zez とすると S={(x,y,z)|x^2+y^2+z^2=1,z≧0} S={(x,y,z)|(x,y,z)=(cosφsinθ,sinφsinθ,cosθ),0≦θ≦π/2,0≦φ≦2π} n=X=(x,y,z)=(cosφsinθ,sinφsinθ,cosθ) (A,n)=2x^2-y^2+2z^2 (A,n)=2(cosφsinθ)^2-(sinφsinθ)^2+2(cosθ)^2 (A,n)={2(cosφ)^2-(sinφ)^2}(sinθ)^2+2(cosθ)^2 2(cosφ)^2=1+cos(2φ) (sinφ)^2={1-cos(2φ)}/2 2(cosθ)^2=1+cos(2θ) (sinθ)^2={1-cos(2θ)}/2 (A,n)={1+cos(2φ)-{1-cos(2φ)}/2}{1-cos(2θ)}/2+1+cos(2θ) (A,n)=[{1+3cos(2φ)}{1-cos(2θ)}+4+4cos(2θ)]/4 (A,n)=[5+3cos(2θ)+3cos(2φ){1-cos(2θ)}]/4 ∂X/∂θ=(cosφcosθ,sinφcosθ,-sinθ) ∂X/∂φ=(-sinφsinθ,cosφsinθ,0) dS=|(∂X/∂θ)×(∂X/∂φ)|dθdφ dS=|(cosφ(sinθ)^2,-sinφ(sinθ)^2,cosθsinθ)|dθdφ dS=|sinθ|dθdφ dS=sinθdθdφ (A,n)sinθ=[5sinθ+3cos(2θ)sinθ+3cos(2φ){1-cos(2θ)}sinθ]/4 (A,n)sinθ=[5sinθ+3cos(2θ)sinθ+3cos(2φ){sinθ-cos(2θ)sinθ}]/4 ↓sinθcos(2θ)={sin(3θ)-sinθ}/2 (A,n)sinθ=[5sinθ+3{sin(3θ)-sinθ}/2+3cos(2φ){sinθ-{sin(3θ)-sinθ}/2}]/4 (A,n)sinθ=[7sinθ+3sin(3θ)+3cos(2φ){3sinθ-sin(3θ)}]/8 ∫[S]dS・(2xex-yey+2zez) =∫[S](2x,-y,2z)dS =∫[S]AdS =∫[S](A,n)dS =∫[S](2x^2-y^2+2z^2)dS =∫[0≦θ≦π/2,0≦φ≦2π]([7sinθ+3sin(3θ)+3cos(2φ){3sinθ-sin(3θ)}]/8)dθdφ =(2π)(7/8)∫[0～π/2]sinθdθ+(2π)(3/8)∫[0～π/2]sin(3θ)dθ +(3/8)∫[0～π/2]{3sinθ-sin(3θ)}dθ∫[0～2π]cos(2φ)dφ =(2π)(7/8)[-cosθ]_[0～π/2]+(2π)(3/8)[-cos(3θ)/3]_[0～π/2] =(2π)(7/8)+(2π)(3/8)/3 =2π