z = f (u, v), u = ϕ(x, y), v =ψ (y)
z = f (u, v, t), u = ϕ(t),
v =ψ (t)
z = f (u, x, y), u = ϕ(x, y)
解 (1)
z = f (u, v), u = ϕ(x, y), v =ψ (y)
+
∂z ∂z ∂u = ∂x ∂u ∂x ∂z = ∂u ∂z = ∂u ∂z ∂z = ∂y ∂u
2 2 x2 + y2 +x4 sin2 y
x2 + y2 +z2
∂f ∂u ∂f ∂f ∂z ∂f ∂f ∂z = = + ⋅1 + ⋅0 + ∂y ∂y ∂x ∂z ∂y ∂y ∂z ∂y
= 2ye
x2 + y2 +z2
4
x2 + y2 +z2 x2 cos y ⋅ + 2ze
x2 + y2 + x4 sin2 y
y
∂z ∂u ∂z ∂v ∂z + = ∂y ∂u ∂y ∂v ∂y
注
设 u = ϕ( x, y)、 =ψ( x, y)及w = ω( x, y) 都在点 v
(x,y) 具有对x及对y的偏导数,函数z=f(u,v,w)在对应点 (u,v,w)有连续偏导数,则复合函数
z = f [ϕ(x, y),ψ (x, y),ω(x, y)]
= eu (sin v + y cos v) = ex+ y[sin( xy) + y cos(xy)]
∂z ∂z ∂u ∂z ∂v = + ∂y ∂u ∂y ∂v ∂y
= eu sin v ⋅1 + eu cos v ⋅ x