Real Analysis 577while the area element is
dσ=1
cosαdxdy,αbeing the angle formed by the normal to the sphere with thexy-plane. It is easy to see
that cosα=za=
√
a^2 −x^2 −y^2
a. Hence the integral is equal to− 2∫∫
D(
z
x
a+x
y
a+y
z
a)a
zdxdy=− 2∫∫
D(
x+y+
xy
√
a^2 −x^2 −y^2)
dxdy,the domain of integrationDbeing the diskx^2 +y^2 −ax≤0. Split the integral as
− 2∫∫
D(x+y)dxdy− 2∫∫
Dxy
√
a^2 −x^2 −y^2dxdy.Because the domain of integration is symmetric with respect to they-axis, the second
double integral is zero. The first double integral can be computed using polar coordinates:
x=a 2 +rcosθ,y=rsinθ,0≤r≤a 2 ,0≤θ≤ 2 π. Its value is−πa
3
4 , which is the
answer to the problem.
(D. Flondor, N. Donciu,Algebra ̧ ̆si Analiz ̆a Matematica ̆(Algebra and Mathematical
Analysis), Editura Didactica ̧ ̆si Pedagogica, Bucharest, 1965) ̆
529.We will apply Stokes’ theorem. We begin with
∂φ
∂y∂ψ
∂z−
∂φ
∂z∂ψ
∂y=
∂φ
∂y∂ψ
∂z
+φ∂^2 ψ
∂y∂z−
∂φ
∂z∂ψ
∂y
−φ∂^2 ψ
∂z∂y=∂
∂y(
φ
∂ψ
∂z)
−
∂
∂z(
φ
∂ψ
∂y)
,
which combined with the two other analogous computations gives
∇φ×∇ψ=curl(φ∇ψ).By Stokes’ theorem, the integral of the curl of a vector field on a surface without boundary
is zero.
(Soviet University Student Mathematical Competition, 1976)
530.For the solution, recall the following identity.
Green’s first identity.Iffandgare twice-differentiable functions on the solid region
Rbounded by the closed surfaceS, then
∫∫∫
R(f∇^2 g+∇f·∇g)dV=∫∫
Sf∂g
∂ndS,where∂g∂nis the derivative ofgin the direction of the normal to the surface.