258 Chapter 4 The Potential Equation
(a) (b)(c) (d)Figure 1 (a)uis displacement of a membrane; the graph off(x)is an isosceles
triangle. (b)uis the temperature on a cross section of a long bar. (c)uis voltage
in a rectangular sheet of conducting material. (d)φis a velocity potential (see
Exercise 8). What arex-andy-velocities on the boundaries?
Show that the definition of a velocity potential functionφby the equationsu=−∂φ
∂x,v=−∂φ
∂ycauses (B) to be identically satisfied and turns (A) into the potential equa-
tion. (See Section 4.7, Comments and References, at the end of this chap-
ter.)
9.For each of the diagrams in Fig. 1, (a) write out the problem in mathemat-
ical form (partial differential equation and boundary conditions); (b) pro-
vide an interpretation in words of the boundary conditions for the given
interpretation of the unknown function.